Laser and Photonics Reviews
Journal Impact IF - Analysis · Trend · Prediction · Ranking


New

Journal Impact IF

2019-2020

10.655

17.7%

Journal Impact IF Trend

Related Journals

Popular Journals

Laser and Photonics Reviews

The 2019-2020 Journal Impact IF of Laser and Photonics Reviews is 10.655, which is just updated in 2020.

Laser and Photonics Reviews Impact Factor
Highest IF
10.655
Highest Journal Impact IF

The highest Journal Impact IF of Laser and Photonics Reviews is 10.655.

Lowest IF
7.388
Lowest Journal Impact IF

The lowest Journal Impact IF of Laser and Photonics Reviews is 7.388.

Total Growth Rate
44.2%
IF Total Growth Rate

The total growth rate of Laser and Photonics Reviews IF is 44.2%.

Annual Growth Rate
4.9%
IF Annual Growth Rate

The annual growth rate of Laser and Photonics Reviews IF is 4.9%.

Journal Impact IF Ranking

Subcategory Quartile Rank Percentile
Condensed Matter Physics Q1 11/403

Condensed Matter Physics 97%

Electronic, Optical and Magnetic Materials Q1 7/234

Electronic, Optical and Magnetic Materials 97%

Atomic and Molecular Physics, and Optics Q1 6/183

Atomic and Molecular Physics, and Optics 96%

Journal Impact IF Ranking

· In the Condensed Matter Physics research field, the Quartile of Laser and Photonics Reviews is Q1. Laser and Photonics Reviews has been ranked #11 over 403 related journals in the Condensed Matter Physics research category. The ranking percentile of Laser and Photonics Reviews is around 97% in the field of Condensed Matter Physics.
· In the Electronic, Optical and Magnetic Materials research field, the Quartile of Laser and Photonics Reviews is Q1. Laser and Photonics Reviews has been ranked #7 over 234 related journals in the Electronic, Optical and Magnetic Materials research category. The ranking percentile of Laser and Photonics Reviews is around 97% in the field of Electronic, Optical and Magnetic Materials.
· In the Atomic and Molecular Physics, and Optics research field, the Quartile of Laser and Photonics Reviews is Q1. Laser and Photonics Reviews has been ranked #6 over 183 related journals in the Atomic and Molecular Physics, and Optics research category. The ranking percentile of Laser and Photonics Reviews is around 96% in the field of Atomic and Molecular Physics, and Optics.

Laser and Photonics Reviews Impact Factor 2020-2021 Prediction

Laser and Photonics Reviews Impact Factor Predition System

Laser and Photonics Reviews Impact Factor Prediction System is now online. You can start share your valuable insights with the community.

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Total Publications
1195
Total Citations
62654

Annual Publication Volume

Annual Citation Record

International Collaboration Trend

Cited Documents Trend

Journal Impact IF History

Year Journal Impact IF
Year Journal Impact IF
2019-2020 10.655
2018-2019 9.056
2017-2018 8.529
2016-2017 8.434
2015-2016 7.486
2014-2015 8.008
2013-2014 9.313
2012-2013 7.976
2011-2012 7.388
Journal Impact IF History

· The 2019-2020 Journal Impact IF of Laser and Photonics Reviews is 10.655
· The 2018-2019 Journal Impact IF of Laser and Photonics Reviews is 9.056
· The 2017-2018 Journal Impact IF of Laser and Photonics Reviews is 8.529
· The 2016-2017 Journal Impact IF of Laser and Photonics Reviews is 8.434
· The 2015-2016 Journal Impact IF of Laser and Photonics Reviews is 7.486
· The 2014-2015 Journal Impact IF of Laser and Photonics Reviews is 8.008
· The 2013-2014 Journal Impact IF of Laser and Photonics Reviews is 9.313
· The 2012-2013 Journal Impact IF of Laser and Photonics Reviews is 7.976
· The 2011-2012 Journal Impact IF of Laser and Photonics Reviews is 7.388

Publications Cites Dataset

Year Publications Citations
Year Publications Citations
2007 18 43
2008 32 155
2009 46 562
2010 42 1072
2011 42 1837
2012 50 2520
2013 98 3602
2014 97 4457
2015 74 5749
2016 103 6671
2017 127 7507
2018 131 7219
2019 119 9544
2020 194 10832
2021 22 884
Publications Cites Dataset

· The Laser and Photonics Reviews has published 18 reports and received 43 citations in 2007.
· The Laser and Photonics Reviews has published 32 reports and received 155 citations in 2008.
· The Laser and Photonics Reviews has published 46 reports and received 562 citations in 2009.
· The Laser and Photonics Reviews has published 42 reports and received 1072 citations in 2010.
· The Laser and Photonics Reviews has published 42 reports and received 1837 citations in 2011.
· The Laser and Photonics Reviews has published 50 reports and received 2520 citations in 2012.
· The Laser and Photonics Reviews has published 98 reports and received 3602 citations in 2013.
· The Laser and Photonics Reviews has published 97 reports and received 4457 citations in 2014.
· The Laser and Photonics Reviews has published 74 reports and received 5749 citations in 2015.
· The Laser and Photonics Reviews has published 103 reports and received 6671 citations in 2016.
· The Laser and Photonics Reviews has published 127 reports and received 7507 citations in 2017.
· The Laser and Photonics Reviews has published 131 reports and received 7219 citations in 2018.
· The Laser and Photonics Reviews has published 119 reports and received 9544 citations in 2019.
· The Laser and Photonics Reviews has published 194 reports and received 10832 citations in 2020.
· The Laser and Photonics Reviews has published 22 reports and received 884 citations in 2021.
· The total publications of Laser and Photonics Reviews is 1195.
· The total citations of Laser and Photonics Reviews is 62654.

What is Impact Factor?

The impact factor (IF) or journal impact factor (JIF) of an academic journal is a scientometric index calculated by Clarivate that reflects the yearly average number of citations of articles published in the last two years in a given journal. It is frequently used as a proxy for the relative importance of a journal within its field; journals with higher impact factor values are often deemed to be more important, or carry more intrinsic prestige in their respective fields, than those with lower values.

Laser and Photonics Reviews | Academic Accelerator - About the Impact Factor

Impact factor is commonly used to evaluate the relative importance of a journal within its field and to measure the frequency with which the “average article” in a journal has been cited in a particular time period. Journal which publishes more review articles will get highest IFs. Journals with higher IFs believed to be more important than those with lower ones. According to Eugene Garfield “impact simply reflects the ability of the journals and editors to attract the best paper available.” Journal which publishes more review articles will get maximum IFs. The Impact Factor of an academic journal is a scientometric Metric that reflects the yearly average number of citations that recent articles published in a given journal received. It is frequently used as a Metric for the relative importance of a journal within its field; journals with higher Impact Factor are often deemed to be more important than those with lower ones. The Laser and Photonics Reviews Impact Factor IF measures the average number of citations received in a particular year (2020) by papers published in the Laser and Photonics Reviews during the two preceding years (2018-2019). Note that 2020 Impact Factor are reported in 2021; they cannot be calculated until all of the 2020 publications have been processed by the indexing agency. New journals, which are indexed from their first published issue, will receive an impact factor after two years of indexing; in this case, the citations to the year prior to Volume 1, and the number of articles published in the year prior to Volume 1, are known zero values. Journals that are indexed starting with a volume other than the first volume will not get an impact factor until they have been indexed for three years. Occasionally, Journal Citation Reports assigns an impact factor to new journals with less than two years of indexing, based on partial citation data. The calculation always uses two complete and known years of item counts, but for new titles one of the known counts is zero. Annuals and other irregular publications sometimes publish no items in a particular year, affecting the count. The impact factor relates to a specific time period; it is possible to calculate it for any desired period. In addition to the 2-year Impact Factor, the 3-year Impact Factor, 4-year Impact Factor, 5-year Impact Factor, Real-Time Impact Factor can provide further insights and factors into the impact of Laser and Photonics Reviews.

History

The impact factor was devised by Eugene Garfield, the founder of the Institute for Scientific Information (ISI). Impact factors are calculated yearly starting from 1975 for journals listed in the Journal Citation Reports (JCR). ISI was acquired by Thomson Scientific & Healthcare in 1992, and became known as Thomson ISI. In 2018, Thomson ISI was sold to Onex Corporation and Baring Private Equity Asia. They founded a new corporation, Clarivate, which is now the publisher of the JCR.

Use

The impact factor is used to compare different journals within a certain field. The Web of Science indexes more than 11,500 science and social science journals. Journal impact factors are often used to evaluate the merit of individual articles and individual researchers. This use of impact factors was summarised by Hoeffel:

Impact Factor is not a perfect tool to measure the quality of articles but there is nothing better and it has the advantage of already being in existence and is, therefore, a good technique for scientific evaluation. Experience has shown that in each specialty the best journals are those in which it is most difficult to have an article accepted, and these are the journals that have a high impact factor. Most of these journals existed long before the impact factor was devised. The use of impact factor as a measure of quality is widespread because it fits well with the opinion we have in each field of the best journals in our specialty....In conclusion, prestigious journals publish papers of high level. Therefore, their impact factor is high, and not the contrary.

Eugene Garfield

In brief, Impact factors may be used by:
  • Authors to decide where to submit an article for publication.
  • Libraries to make collection development decisions
  • Academic departments to assess academic productivity
  • Academic departments to make decisions on promotion and tenure.
As impact factors are a journal-level metric, rather than an article- or individual-level metric, this use is controversial. Garfield agrees with Hoeffel,but warns about the "misuse in evaluating individuals" because there is "a wide variation [of citations] from article to article within a single journal". Other things to consider about Impact Factors:
  • Many journals do not have an impact factor.
  • The impact factor cannot assess the quality of individual articles. Even if citations were evenly distributed among articles, the impact factor would only measure the interests of other researchers in an article, not its importance and usefulness.
  • Only research articles, technical notes and reviews are “citable” items. Editorials, letters, news items and meeting abstracts are “non-citable items”.
  • Only a small percentage of articles are highly cited and they are found in a small subset of journals. This small proportion accounts for a large percentage of citations.
  • Controversial papers, such as those based on fraudulent data, may be highly cited, distorting the impact factor of a journal.
  • Citation bias may exist. For example, English language resources may be favoured. Authors may cite their own work.
Moreover, informed and careful use of these impact data is essential, and should be based on a thorough understanding of the methodology used to generate impact factors. There are controversial aspects of using impact factors:
  • It is not clear whether the number of times a paper is cited measures its actual quality.
  • Some databases that calculate impact factors fail to incorporate publications including textbooks, handbooks and reference books.
  • Certain disciplines have low numbers of journals and usage. Therefore, one should only compare journals or researchers within the same discipline.
  • Review articles normally are cited more often and therefore can skew results.
  • Self-citing may also skew results.
  • Some resources used to calculate impact factors have inadequate international coverage.
  • Editorial policies can artificially inflate an impact factor.
Impact factors have often been used in advancement and tenure decision-making. Many recognize that this is a coarse tool for such important decisions, and that a multitude of factors should be taken into account in these deliberations. When considering the use of the impact factor (IF), keep these aspects in mind:
  • IF analysis is limited to citations from the journals indexed by the Web of Science/Web of Knowledge. Currently, the Web of Science indexes only 8621 journals across the full breadth of the sciences, and just 3121 in the social sciences.
  • A high IF/citation rate says nothing about the quality -- or even, validity -- of the references being cited. Notorious or even retracted articles often attract a lot of attention, hence a high number of citations. The notority related to the first publication on "cold fusion" is one such example.
  • Journals that publish more "review articles" are often found near the top of the rankings. While not known for publishing new, creative findings, these individual articles tend to be heavily cited.
  • The IF measures the average number of citations to articles in the journal -- given this, a small number of highly-cited articles will skew the figure.
  • It takes several years for new journals to be added to the list of titles indexed by the Web of Science/Web of Knowledge, so these newer titles will be under-represented.
  • It's alleged that journal editors have learned to "game" the system, encouraging authors to cite their works previously published in the same journal.
Comparing Journals Across Disciplines? Not a good idea! Using Impact Factors within a given discipline should only be done with great care, as described above. Using impact factor data to compare journals across disciplines is even more problematic. Here are some of the reasons:
  • Disciplines where older literature is still referenced, such as Chemistry and Mathematics, offer challenges to the methodolgy since older citations (older than two years) are not used to calculate the impact factor for a given journal. (Five-year impact factor analysis, which can be calculated using the Journal Citation Index database, helps smooth out this problem only to some degree.)
  • Different disciplines have different practices regarding tendency to cite larger numbers of references. Higher overall citation rates will bump upward impact factor measurements.
  • Where it's common for large numbers of authors to collaborate on a single paper, such as in Physics, the tendency of authors to cite themselves (and in this case, more authors) will result in increased citation rates.

Pros and Cons of the Impact Factor

Pros:

  • A vetted, established metric for measuring journal impact within a discipline.
  • Designed to eliminate bias based on journal size and frequency.
Cons:
  • Individual articles makes an uneven contribution to overall Impact Factor.
  • Impact Factor does not account for certain things, things like context (postive or negative citaion) and intentionality (self-citation).
  • The metric is proprietary to and bound by the contents of the Thomson Reuters database.
  • Citations, on which the Impact Factor is based, count for less than 1% of an article's overall use.

Criticism

Numerous critiques have been made regarding the use of impact factors. A 2007 study noted that the most fundamental flaw is that impact factors present the mean of data that are not normally distributed, and suggested that it would be more appropriate to present the median of these data. There is also a more general debate on the validity of the impact factor as a measure of journal importance and the effect of policies that editors may adopt to boost their impact factor (perhaps to the detriment of readers and writers). Other criticism focuses on the effect of the impact factor on behavior of scholars, editors and other stakeholders. Others have made more general criticisms, arguing that emphasis on impact factor results from negative influence of neoliberal policies on academia claiming that what is needed is not just replacement of the impact factor with more sophisticated metrics for science publications but also discussion on the social value of research assessment and the growing precariousness of scientific careers in higher education.
Experts stress that there are limitations in using impact factors to evaluate a scholar's work. There are many reasons cited for not relying on impact factor alone to evaluate the output of a particular individual. Among these are the following:

  • A single factor is not sufficient for evaluating an author's work.
  • Journal values are meaningless unless compared within the same discipline. Impact factors vary among disciplines.
  • The impact factor was originally devised to show the impact of a specific journal, not a specific scholar. The quality and impact of the author's work may extend beyond the impact of a particular journal.
According to Jim Testa, a researcher for ThomsonReuters Scientific, the most widespread misuse of the Impact Factor is to evaluate the work of an individual author (instead of a journal). "To say that because a researcher is publishing in a certain journal, he or she is more influential or deserves more credit is not necessarily true. There are many other variables to consider." (interview 6/26/2008 in Thomson Reuters blog entry)

Laser and Photonics Reviews
Journal Profile

About

Laser & Photonics Reviews publishes top-quality review articles, original papers and letters covering the current range of photonics and laser physics, both theoretical and experimental, from recent breakthrough research to specific developments and novel applications.Main Areas of Interest: Photonic Materials; Metamaterials; Nanophotonics; Ultrafast Photonics; Plasmonics; Quantum Photonics - Quantum Science & Technology; Silicon Photonics; Light-Matter Interaction; Synthetic Dimension; Topological Photonics; Semiconductor Photonics; Photonics of LEDs, Solar Cells and Detectors; Fibre Lasers & Fibre Optics; Sub-Wavelength Photonics; Optical Antennas; Photonics of Artificial Materials; Micro/ Nano Cavities; Laser Cooling and Ultracold Gases; Optofluidics; Optomechanics; Laser Metrology and Spectroscopy; Transformation Optics; Nanolasers; Holography; Biophotonics & Biomedical Optics; Nonlinear Optics; Optical Absorbers; Optical Coatings; Photonic Crystals; Optical Imaging; Optics in Telecommunication. Laser & Photonics Reviews is a bimonthly peer-reviewed scientific journal covering research on all aspects of optical science. It is published by Wiley-VCH and contains reviews and original papers/letters. The journal was established in 2007 by the founding editor-in-chief Theodor W. Hänsch (Ludwig Maximilian University of Munich). Originally, the journal only published review articles. Since 2012, it also contains original papers and letters. According to the Journal Citation Reports, the journal had a 2011 impact factor of 7.388, ranking it 2nd out of 79 journals in the category Optics, 8th out of 125 journals in the category Physics Applied, and 11th out of 69 journals in the category Physics Condensed Matter.

Highly Cited Keywords

ISSN
1863-8880
ISSN

The ISSN of Laser and Photonics Reviews is 1863-8880 . An ISSN is an 8-digit code used to identify newspapers, journals, magazines and periodicals of all kinds and on all media–print and electronic.

ISSN (Online)
1863-8899
ISSN (Online)

The ISSN (Online) of Laser and Photonics Reviews is 1863-8899 . An ISSN is an 8-digit code used to identify newspapers, journals, magazines and periodicals of all kinds and on all media–print and electronic.

Publisher
Wiley-VCH Verlag
Publisher

Laser and Photonics Reviews is published by Wiley-VCH Verlag .

Publication Frequency
Bimonthly
Publication Frequency

Laser and Photonics Reviews publishes reports Bimonthly .

Coverage
2007 - Present
Coverage

The Publication History of Laser and Photonics Reviews covers 2007 - Present .

Open Access
NO
Open Access

Laser and Photonics Reviews is Subscription-based (non-OA) Journal. Publishers own the rights to the articles in their journals. Anyone who wants to read the articles should pay by individual or institution to access the articles. Anyone who wants to use the articles in any way must obtain permission from the publishers.

Publication Fee
Publication Fee

There is no publication fee for submiting manuscript to Laser and Photonics Reviews. Laser and Photonics Reviews is Subscription-based (non-OA) Journal. Publishers own the rights to the articles in their journals. Anyone who wants to read the articles should pay by individual or institution to access the articles.

Language
English
Language

The language of Laser and Photonics Reviews is English .

Country/Region
Germany
Country/Region

The publisher of Laser and Photonics Reviews is Wiley-VCH Verlag , which locates in Germany .

Selected Articles

Full Title Authors
Full Title Authors
Ultra-Efficient and Broadband Nonlinear AlGaAs-on-Insulator Chip for Low-Power Optical Signal Processing Yang Chen · Jie Gao · Xiaodong Yang · Xiaodong Yang
Stretchable Photonic Fermi Arcs in Twisted Magnetized Plasma Paul-Antoine Moreau · Ermes Toninelli · Thomas Gregory · Miles J. Padgett · Miles J. Padgett
Phase-Locked Lasing in 1D and 2D Patterned Metal-Organic Microcavities: Phase-Locked Lasing in 1D and 2D Patterned Metal-Organic Microcavities Shaoyang Wang · Yaohui Liu · Dapeng Zhang · Shih-Chi Chen · Siu Kai Kong · Minglie Hu · Youjia Cao · Hao He · Hao He
All-Optical Phosphorene Phase Modulator with Enhanced Stability Under Ambient Conditions Rengmao Wu · Zexin Feng · Zhenrong Zheng · Rongguang Liang · Pablo Benítez · Juan C. Miñano · Fabian Duerr · Fabian Duerr
Photoactivation of Extracellular‐Signal‐Regulated Kinase Signaling in Target Cells by Femtosecond Laser (Laser Photonics Rev. 12(7)/2018) Xue Xiaoxiao · Wang Pei-Hsun · Xuan Yi · Qi Minghao · M Weiner Andrew · M Weiner Andrew
Polarization Singularity Explosions in Tailored Light Fields: Polarization Singularity Explosions in Tailored Light Fields Haoran Ren · Min Gu · Min Gu
Optomechanical Akhmediev Breathers Yunzheng Wang · Feng Zhang · Xian Tang · Xing Chen · Yunxiang Chen · Weichun Huang · Zhiming Liang · Leiming Wu · Yanqi Ge · Yufeng Song · Jie Liu · Du Zhang · Jianqing Li · Han Zhang · Han Zhang
Plasmon-Enhanced Spin-Orbit Interaction of Light in Graphene Eileen Otte · Christina Alpmann · Cornelia Denz · Cornelia Denz
High-Power, High-Efficiency Tm:YAG and Ho:YAG Thin-Disk Lasers (Laser Photonics Rev. 12(3)/2018) Hao Xiong · Ying Wu · Ying Wu
Ultra-Sharp Multi-Mode Waveguide Bending Assisted with Metamaterial-Based Mode Converters (Laser Photonics Rev. 12(3)/2018) Alessandro Ciattoni · Carlo Rizza · Ho Wai Howard Lee · Claudio Conti · Andrea Marini · Andrea Marini
Few‐layer Bismuthene: Sonochemical Exfoliation, Nonlinear Optics and Applications for Ultrafast Photonics with Enhanced Stability Patrick Storz · Jonas Tauch · Marcel Wunram · Alfred Leitenstorfer · Daniele Brida · Daniele Brida
Microwave Vortex-Beam Emitter Based on Spoof Surface Plasmon Polaritons (Laser Photonics Rev. 12(3)/2018) Jinwei Zhang · Felix Schulze · Ka Fai Mak · Vladimir Pervak · Dominik Bauer · Dirk Sutter · Oleg Pronin · Oleg Pronin
Broadband Nonlinear Photonics in Few-Layer MXene Ti3C2Tx (T = F, O, or OH) (Laser Photonics Rev. 12(2)/2018) Jia Yuan Yin · Jian Ren · Lei Zhang · Haijiang Li · Tie Jun Cui · Tie Jun Cui
Vertical‐Cavity Silicon‐Integrated Laser with In‐Plane Waveguide Emission at 850 nm (Laser Photonics Rev. 12(2)/2018) Ivan S. Sinev · Andrey Bogdanov · Filipp E. Komissarenko · Kristina S. Frizyuk · Mihail I. Petrov · Ivan Mukhin · S. V. Makarov · A. K. Samusev · Andrei V. Lavrinenko · Ivan Iorsh · Ivan Iorsh
Status and Potential of Lithium Niobate on Insulator (LNOI) for Photonic Integrated Circuits Xiantao Jiang · Shunxiang Liu · Weiyuan Liang · Shaojuan Luo · Zhiliang He · Yanqi Ge · Huide Wang · Rui Cao · Feng Zhang · Qiao Wen · Jianqing Li · Qiaoliang Bao · Dianyuan Fan · Han Zhang · Han Zhang
Broadband Nonlinear Photonics in Few-Layer MXene Ti3C2Tx (T = F, O, or OH) Liang Fang · Miles J. Padgett · Jian Wang · Jian Wang
Hybrid-State Dynamics of Dye Molecules and Surface Plasmon Polaritons under Ultrastrong Coupling Regime Sulakshna Kumari · Emanuel P. Haglund · Johan S. Gustavsson · Anders Larsson · Günther Roelkens · Roel Baets · Roel Baets
Ultracompact Broadband Plasmonic Polarimeter Andreas Boes · Andreas Boes · Bill Corcoran · Bill Corcoran · Lin Chang · John E. Bowers · Arnan Mitchell · Arnan Mitchell · Arnan Mitchell
Spatio-Temporal Characterization of Pump-Induced Wavefront Aberrations in Yb3 + -Doped Materials (Laser Photonics Rev. 12(2)/2018) Hai Wang · Hai-Yu Wang · Qi-Dai Chen · Huailiang Xu · Hong-Bo Sun · Hong-Bo Sun · Fangcheng Huang · Waseem Raja · Andrea Toma · Remo Proietti Zaccaria · Remo Proietti Zaccaria · Remo Proietti Zaccaria
Observation of Type I Photonic Weyl Points in Optical Frequencies (Laser Photonics Rev. 12(2)/2018) Kyookeun Lee · Hansik Yun · Sang-Eun Mun · Gun-Yeal Lee · Jangwoon Sung · Byoungho Lee · Byoungho Lee
Biomineral Amorphous Lasers through Light‐Scattering Surfaces Assembled by Electrospun Fiber Templates Kyu Min Sim · Abhishek Swarnkar · Angshuman Nag · Dae Sung Chung · Dae Sung Chung
Light Interaction with Photonic and Plasmonic Resonances Aaron McKay · David J. Spence · David W. Coutts · Richard P. Mildren · Richard P. Mildren
Phase Stabilized α-CsPbI3 Perovskite Nanocrystals for Photodiode Applications Xiaoqiang Zhu · Li Liang · Yunfeng Zuo · Xuming Zhang · Yi Yang · Yi Yang
10-Channel Mode (de)multiplexer with Dual Polarizations Sylvain Combrié · Gaëlle Lehoucq · Gregory Moille · Aude Martin · Alfredo De Rossi · Alfredo De Rossi
Coupled‐Waveguides for Dispersion Compensation in Semiconductor Lasers Zhuoxian Wang · Xiangeng Meng · Xiangeng Meng · Alexander V. Kildishev · Alexandra Boltasseva · Vladimir M. Shalaev · Vladimir M. Shalaev
Photon Upconversion Kinetic Nanosystems and Their Optical Response Yurui Qu · Qiang Li · Kaikai Du · Lu Cai · Jun Lu · Min Qiu · Min Qiu
Angular Momentum‐Reversible Near‐Unity Bisignate Circular Dichroism Hanlin Fang · Jin Liu · Hongji Li · Lidan Zhou · Lin Liu · Juntao Li · Xuehua Wang · Thomas F. Krauss · Yue Wang · Yue Wang
Spatio‐Temporal Characterization of Pump‐Induced Wavefront Aberrations in Yb3 + ‐Doped Materials Rui-Pin Chen · Zhaozhong Chen · Yuan Gao · Jianping Ding · Sailing He · Sailing He
Parity-Time-Symmetric Optical Lattice with Alternating Gain and Loss Atomic Configurations Lingbo Xia · Lingbo Xia · Wenlong Gao · Biao Yang · Qinghua Guo · Qinghua Guo · Hongchao Liu · Jiaguang Han · Shuang Zhang · Shuang Zhang · Shuang Zhang
On-Chip Detection of Orbital Angular Momentum Beam by Plasmonic Nanogratings V. Pacheco-Peña · V. Pacheco-Peña · Antonio I. Fernández-Domínguez · Yu Luo · M. Beruete · M. Navarro-Cía · M. Navarro-Cía
Achromatic Broadband Super-Resolution Imaging by Super-Oscillatory Metasurface Andreas Mischok · Andreas Mischok · Mona Kliem · Robert Brückner · Stefan Meister · Hartmut Fröb · Malte C. Gather · Karl Leo · Karl Leo
Microwave Vortex‐Beam Emitter Based on Spoof Surface Plasmon Polaritons Juan Camilo López Carreño · Juan Camilo López Carreño · Fabrice P. Laussy · Fabrice P. Laussy
Phase-Selective Nanocrystallization of NaLnF4 in Aluminosilicate Glass for Random Laser and 940 nm LED-Excitable Upconverted Luminescence Wenjie Liu · Kimani C. Toussaint · Chukwuemeka Okoro · Dazhao Zhu · Youhua Chen · Youhua Chen · Cuifang Kuang · Cuifang Kuang · Xu Liu · Xu Liu · Xu Liu
1305 nm Few‐Layer MoTe2‐on‐Silicon Laser‐Like Emission Hang Lin · Tao Hu · Yao Cheng · Mingxiang Chen · Yuansheng Wang · Yuansheng Wang
Manipulating the Orientations of the Electric and Magnetic Dipoles Induced in Silicon Nanoparticles for Multicolor Display Yinxing Ding · Xiaokang Song · Ping Jiang · Rongzhen Jiao · Lulu Wang · Li Yu · Jiasen Zhang · Jiasen Zhang
Glass Ceramic Phosphors: Towards Long-Lifetime High-Power White Light-Emitting-Diode Applications-A Review Guixin Li · Giovanni Sartorello · Shumei Chen · Luke H. Nicholls · King Fai Li · Shuang Zhang · Anatoly V. Zayats · Anatoly V. Zayats
Directional Optical Travelling Wave Antenna Based on Surface Plasmon Transmission Line (Laser Photonics Rev. 12(4)/2018) Anar K. Ospanova · Anar K. Ospanova · Ivan V. Stenishchev · Alexey A. Basharin · Alexey A. Basharin · Alexey A. Basharin
Spin and Geometric Phase Control Four-Wave Mixing from Metasurfaces Lin Chang · Andreas Boes · Andreas Boes · Xiaowen Guo · Daryl T. Spencer · M. J. Kennedy · Jon Peters · Nicolas Volet · Jeff Chiles · Abijith Kowligy · Nima Nader · Daniel D. Hickstein · Eric J. Stanton · Scott A. Diddams · Scott B. Papp · John E. Bowers · John E. Bowers
Anapole Mode Sustaining Silicon Metamaterials in Visible Spectral Range Zeyu Pan · Xiaochuan Xu · Chi-Jui Chung · Hamed Dalir · Hai Yan · Ke Chen · Yaguo Wang · Baohua Jia · Ray T. Chen · Ray T. Chen
Heterogeneously Integrated GaAs Waveguides on Insulator for Efficient Frequency Conversion Shaoyang Wang · Yaohui Liu · Dapeng Zhang · Shih-Chi Chen · Siu Kai Kong · Minglie Hu · Youjia Cao · Hao He · Hao He · Hao He
High-Speed Modulator Based on Electro-Optic Polymer Infiltrated Subwavelength Grating Waveguide Ring Resonator: LETTER ARTICLE King Fai Li · Jun Hong Deng · Xuan Liu · Guixin Li · Guixin Li
Photoactivation of Extracellular-Signal-Regulated Kinase Signaling in Target Cells by Femtosecond Laser Yves Bidaux · Filippos Kapsalidis · Pierre Jouy · Mattias Beck · Jérôme Faist · Jérôme Faist
Observation of Rotational Doppler Effect in Second Harmonic Generation in Reflection Mode Jie Luo · Jie Luo · Bingbing Liu · Bingbing Liu · Zhi Hong Hang · Zhi Hong Hang · Yun Lai · Yun Lai · Yun Lai · Yun Lai
Coupled-Waveguides for Dispersion Compensation in Semiconductor Lasers (Laser Photonics Rev. 12(5)/2018) Xinyue Li · Daqin Chen · Daqin Chen · Feng Huang · Guangcai Chang · Junjie Zhao · Xvsheng Qiao · Xuhui Xu · Jincheng Du · Min Yin · Min Yin
Coherent Perfect Absorption via Photonic Doping of Zero‐Index Media Yuyu Jiang · Xiao Lin · Tony Low · Baile Zhang · Hongsheng Chen · Hongsheng Chen
Group-Velocity-Controlled and Gate-Tunable Directional Excitation of Polaritons in Graphene-Boron Nitride Heterostructures (Laser Photonics Rev. 12(5)/2018) Zhen Qiao · Guoqiang Xie · Yuhang Wu · Peng Yuan · Jingui Ma · Liejia Qian · Dianyuan Fan · Dianyuan Fan · Dianyuan Fan
Angular Optical Transparency Induced by Photonic Topological Transitions in Metamaterials Ji Chen · Xi Chen · Tao Li · Shining Zhu · Shining Zhu
Breaking the Axial Diffraction Limit: A Guide to Axial Super-Resolution Fluorescence Microscopy Shiguo Han · Shiguo Han · Peng Wang · Jing Zhang · Xitao Liu · Zhihua Sun · Xiaoying Huang · Lina Li · Chengmin Ji · Weichuan Zhang · Bing Teng · Weida Hu · Maochun Hong · Junhua Luo · Junhua Luo
Generating High-Charge Optical Vortices Directly from Laser Up to 288th Order Baoliang Ge · Renjie Zhou · Yu Takiguchi · Zahid Yaqoob · Peter T. C. So · Peter T. C. So
Exploring a Polar Two‐dimensional Multi‐layered Hybrid Perovskite of (C5H11NH3)2(CH3NH3)Pb2I7 for Ultrafast‐Responding Photodetection Hai Su · Xiaopeng Shen · Guangxu Su · Lin Li · Jianping Ding · Fanxin Liu · Fanxin Liu · Peng Zhan · Yongmin Liu · Zhenlin Wang · Zhenlin Wang
Single-Shot Optical Anisotropy Imaging with Quantitative Polarization Interference Microscopy Eileen Otte · Christina Alpmann · Cornelia Denz · Cornelia Denz
Efficient Generation of Microwave Plasmonic Vortices via a Single Deep‐Subwavelength Meta‐Particle Hanlin Fang · Jin Liu · Hongji Li · Lidan Zhou · Lin Liu · Juntao Li · Xue-Hua Wang · Thomas F. Krauss · Yue Wang · Yue Wang
Polarization Singularity Explosions in Tailored Light Fields (Laser Photonics Rev. 12(6)/2018) Junsong Peng · Heping Zeng · Heping Zeng
1305 nm Few-Layer MoTe2-on-Silicon Laser-Like Emission (Laser Photonics Rev. 12(6)/2018) Feng Wen · Feng Wen · Xun Zhang · Huapeng Ye · Huapeng Ye · Wei Wang · Hongxing Wang · Yanpeng Zhang · Zhiping Dai · Zhiping Dai · Cheng-Wei Qiu · Cheng-Wei Qiu
Build‐Up of Dissipative Optical Soliton Molecules via Diverse Soliton Interactions Liang Peng · Yuntian Chen · Yihao Yang · Zhiyu Wang · Faxin Yu · Gaofeng Wang · Nian-Hai Shen · Baile Zhang · Costas M. Soukoulis · Hongsheng Chen · Hongsheng Chen
Efficient and Tunable Photoinduced Honeycomb Lattice in an Atomic Ensemble Jing Wang · Jingui Ma · Peng Yuan · Daolong Tang · Guoqiang Xie · Liejia Qian · Frank W. Wise · Frank W. Wise
Spin Momentum–Locked Surface States in Metamaterials without Topological Transition Sergey Kruk · Filipe Ferreira · Naoise Mac Suibhne · Naoise Mac Suibhne · Christos Tsekrekos · Ivan I. Kravchenko · Andrew D. Ellis · Dragomir N. Neshev · Sergey K. Turitsyn · Yuri S. Kivshar · Yuri S. Kivshar
In‐Band Noise Filtering via Spatio‐Spectral Coupling Pengcheng Huo · Yuzhang Liang · Si Zhang · Yan-qing Lu · Ting Xu · Ting Xu
Transparent Dielectric Metasurfaces for Spatial Mode Multiplexing Zhu Li · Tao Zhang · Tao Zhang · Yanqin Wang · Weijie Kong · Jian Zhang · Yijia Huang · Changtao Wang · Xiong Li · Mingbo Pu · Xiangang Luo · Xiangang Luo
Micro-resonator soliton generated directly with a diode laser Alexey V. Krasavin · Pavel Ginzburg · Anatoly V. Zayats · Anatoly V. Zayats
Metal‐Dielectric Nanocavity for Real‐Time Tracing Molecular Events with Temperature Feedback Issa Tamer · Sebastian Keppler · Marco Hornung · Jörg Körner · Joachim Hein · Malte C. Kaluza · Malte C. Kaluza
Free‐electron Optical Nonlinearities in Plasmonic Nanostructures: A Review of the Hydrodynamic Description Elena Goi · Elena Goi · Zengji Yue · Benjamin P. Cumming · Benjamin P. Cumming · Min Gu · Min Gu · Min Gu
Counter-Propagating Optical Trapping of Resonant Nanoparticles Using a Uniaxial Crystal Dario Polli · Dario Polli · Vikas Kumar · Carlo M. Valensise · Marco Marangoni · Giulio Cerullo · Giulio Cerullo
Enhanced Spin Hall Effect of Light in Spheres with Dual Symmetry Hai Su · Xiaopeng Shen · Guangxu Su · Lin Li · Jianping Ding · Fanxin Liu · Peng Zhan · Yongmin Liu · Zhenlin Wang · Zhenlin Wang
Generation of multi-gigahertz trains of phase-coherent femtosecond laser pulses in Ti:sapphire waveguides Zhi Li · Wenwei Liu · Zhancheng Li · Chengchun Tang · Hua Cheng · Hua Cheng · Junjie Li · Xianzhong Chen · Shuqi Chen · Jianguo Tian · Jianguo Tian · Jianguo Tian
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Transporting the Optical Chirality through the Dynamical Barriers in Optical Microcavities Dongliang Gao · Ran Shi · Andrey E. Miroshnichenko · Lei Gao · Lei Gao
Plasmonic Enhancement and Manipulation of Optical Nonlinearity in Monolayer Tungsten Disulfide C. Grivas · C. Grivas · Rand Ismaeel · Costantino Corbari · Chung-Che Huang · D.W. Hewak · Pavlos G. Lagoudakis · Pavlos G. Lagoudakis · Gilberto Brambilla · Gilberto Brambilla
Surface-Enhanced Dual-Comb Coherent Raman Spectroscopy with Nanoporous Gold Films Jingyi Tian · Hao Luo · Qiang Li · Xuelu Pei · Kaikai Du · Min Qiu · Min Qiu
Polarity of the Fano Resonance in the Near-Field Magnetic-Dipole Response of a Dielectric Particle Near a Conductive Surface: Polarity of the Fano Resonance in the Near-Field Magnetic-Dipole Response of a Dielectric Particle Near a Conductive Surface Shuai Liu · Jan Wiersig · Wenzhao Sun · Yubin Fan · Li Ge · Jin-Kyu Yang · Shumin Xiao · Shumin Xiao · Qinghai Song · Qinghai Song · Hui Cao · Hui Cao
Polarization Control in Graphene-Based Polymer Waveguide Polarizer Jinwei Shi · Wei-Yun Liang · Soniya S. Raja · Yungang Sang · Xin-Quan Zhang · Chun-An Chen · Yanrong Wang · Xinyue Yang · Yi-Hsien Lee · Hyeyoung Ahn · Shangjr Gwo · Shangjr Gwo
High-Charge Optical Vortices: Generating High-Charge Optical Vortices Directly from Laser Up to 288th Order (Laser Photonics Rev. 12(8)/2018) Ming Yan · Ling Zhang · Qiang Hao · Xuling Shen · Xiaowei Qian · Haihong Chen · Xinyi Ren · Heping Zeng · Heping Zeng · Heping Zeng
Low‐Power Continuous‐Wave Second Harmonic Generation in Semiconductor Nanowires Irina Khromova · Andrey Sayanskiy · Andrey Uryutin · Andrey B. Evlyukhin · Andrey B. Evlyukhin
Optical Switching Devices: Resonant Edge‐State Switching in Polariton Topological Insulators (Laser Photonics Rev. 12(8)/2018) Jin Tae Kim · Hongkyw Choi · Hongkyw Choi
Ultrafast Fibre Lasers: Build‐Up of Dissipative Optical Soliton Molecules via Diverse Soliton Interactions (Laser Photonics Rev. 12(8)/2018) Zhen Qiao · Guoqiang Xie · Yuhang Wu · Peng Yuan · Jingui Ma · Liejia Qian · Dianyuan Fan · Dianyuan Fan
Angular Transparency: Angular Optical Transparency Induced by Photonic Topological Transitions in Metamaterials (Laser Photonics Rev. 12(8)/2018) Qingchen Yuan · Liang Fang · He Yang · Xuetao Gan · Vladislav Khayrudinov · Harri Lipsanen · Zhipei Sun · Jianlin Zhao · Jianlin Zhao
Broadband Coherent Raman Scattering Microscopy Yiqi Zhang · Yaroslav V. Kartashov · Yanpeng Zhang · Lluis Torner · Dmitry V. Skryabin · Dmitry V. Skryabin
Recent Advances in Resonant Waveguide Gratings Junsong Peng · Heping Zeng · Heping Zeng
Quantum Sensing: Quantum Sensing of Motion in Colloids via Time-Dependent Purcell Effect (Laser Photonics Rev. 12(9)/2018) Seongjin Hong · Ferdinand Lédée · Jaedeok Park · Sanggwon Song · Hyeonwoo Lee · Yong Soo Lee · Byungjoo Kim · Dong-Il Yeom · Emmanuelle Deleporte · Kyunghwan Oh · Kyunghwan Oh
Tripling the Capacity of Optical Vortices by Nonlinear Metasurface Gael Favraud · Juan Sebastian Totero Gongora · Juan Sebastian Totero Gongora · Andrea Fratalocchi · Andrea Fratalocchi
Plasmonic Vortices: Efficient Generation of Microwave Plasmonic Vortices via a Single Deep-Subwavelength Meta-Particle (Laser Photonics Rev. 12(9)/2018) Ke Wei · Tian Jiang · Zhongjie Xu · Junhu Zhou · Jie You · Yuxiang Tang · Han Li · Runze Chen · Xin Zheng · Shanshan Wang · Ke Yin · Zhenyu Wang · Jun Wang · Xiangai Cheng · Xiangai Cheng
Hyperbolic Metamaterial Devices for Wavefront Manipulation Shuai Liu · Jan Wiersig · Wenzhao Sun · Yubin Fan · Li Ge · Jin-Kyu Yang · Shumin Xiao · Qinghai Song · Hui Cao · Hui Cao
Nonlinear Optics: Heterogeneously Integrated GaAs Waveguides on Insulator for Efficient Frequency Conversion (Laser Photonics Rev. 12(10)/2018) Ruizhe Yao · Chi-Sen Lee · Viktor A. Podolskiy · Wei Guo · Wei Guo
Exploring Time‐Resolved Multiphysics of Active Plasmonic Systems with Experiment‐Based Gain Models Mikkel Brydegaard · Sune Svanberg · Sune Svanberg · Sune Svanberg
Chaotic-To-Regular Tunneling: Transporting the Optical Chirality through the Dynamical Barriers in Optical Microcavities (Laser Photonics Rev. 12(10)/2018) Minhao Pu · Hao Hu · Luisa Ottaviano · Elizaveta Semenova · Dragana Vukovic · Leif Katsuo Oxenløwe · Kresten Yvind · Kresten Yvind
Second-harmonic generation from hyperbolic plasmonic nanorod metamaterial slab Giuseppe Marino · Giuseppe Marino · Paulina Segovia · Paulina Segovia · Alexey V. Krasavin · Pavel Ginzburg · Pavel Ginzburg · Nicolas Olivier · Nicolas Olivier · Gregory A. Wurtz · Gregory A. Wurtz · Anatoly V. Zayats · Anatoly V. Zayats
Chirality of Symmetric Resonant Heterostructures: Chirality of Symmetric Resonant Heterostructures Lin Chang · Andreas Boes · Xiaowen Guo · Daryl T. Spencer · M. J. Kennedy · Jon Peters · Nicolas Volet · Jeff Chiles · Abijith S. Kowligy · Nima Nader · Daniel D. Hickstein · Eric J. Stanton · Scott A. Diddams · Scott B. Papp · John E. Bowers · John E. Bowers
Hybrid Perovskites: Ultrafast Carrier Transfer Promoted by Interlayer Coulomb Coupling in 2D/3D Perovskite Heterostructures (Laser Photonics Rev. 12(10)/2018) Shaimaa I. Azzam · Jieran Fang · Jingjing Liu · Zhuoxian Wang · N. Arnold · Thomas A. Klar · Ludmila J. Prokopeva · Xiangeng Meng · Xiangeng Meng · Vladimir M. Shalaev · Alexander V. Kildishev · Alexander V. Kildishev
Optomechanical Akhmediev Breathers (Laser Photonics Rev. 12(7)/2018) Sergey Nechayev · Paweł Woźniak · Martin Neugebauer · René Barczyk · Peter Banzer · Peter Banzer
Mode-Locking of All-Fiber Lasers Operating at Both Anomalous and Normal Dispersion Regimes in the C- and L-Bands Using Thin Film of 2D Perovskite Crystallites Xiao-Dong Chen · Wei-Min Deng · Fu-Li Zhao · Jian-Wen Dong · Jian-Wen Dong
Chirality of Symmetric Resonant Heterostructures Ke Wei · Tian Jiang · Zhongjie Xu · Junhu Zhou · Jie You · Yuxiang Tang · Han Li · Runze Chen · Xin Zheng · Shanshan Wang · Ke Yin · Zhenyu Wang · Jun Wang · Xiangai Cheng · Xiangai Cheng
Unity Integration of Grating Slot Waveguide and Microfluid for Terahertz Sensing Xiang Yin · Hua Zhu · Huijie Guo · Ming Deng · Tao Xu · Zhijie Gong · Xun Li · Zhi Hong Hang · Chao Wu · Hongqiang Li · Shuqi Chen · Lei Zhou · Lin Chen · Lin Chen
Metaparticles: Dressing Nano-Objects with a Hyperbolic Coating Hao Xiong · Ying Wu · Ying Wu
Accidental Double Dirac Cones and Robust Edge States in Topological Anisotropic Photonic Crystals Sergey Nechayev · Paweł Woźniak · Martin Neugebauer · René Barczyk · Peter Banzer · Peter Banzer
Ultrafast Carrier Transfer Promoted by Interlayer Coulomb Coupling in 2D/3D Perovskite Heterostructures Li Liang · Li Liang · Li Liang · Xin Hu · Long Wen · Yuhuan Zhu · Xianguang Yang · Jun Zhou · Yaxin Zhang · Ivonne Escorcia Carranza · James Grant · Chunping Jiang · David R. S. Cumming · Baojun Li · Qin Chen · Qin Chen
Evolutionary Photonics for Renewable Energy, Nanomedicine, and Advanced Material Engineering Pan Wang · Alexey V. Krasavin · Francesco N. Viscomi · Ali M. Adawi · Jean-Sebastien Bouillard · Jean-Sebastien Bouillard · Lei Zhang · Diane J. Roth · Limin Tong · Anatoly V. Zayats · Anatoly V. Zayats
Resonant Edge-State Switching in Polariton Topological Insulators Pengcheng Huo · Yuzhang Liang · Si Zhang · Yan-qing Lu · Ting Xu · Ting Xu
Near-Field Characterization of Graphene Plasmons by Photo-Induced Force Microscopy Giorgio Quaranta · Guillaume Basset · Olivier J. F. Martin · Benjamin Gallinet · Benjamin Gallinet
Design of Freeform Illumination Optics Jin Xiang · Juntao Li · Zhenpeng Zhou · Shuai Jiang · Jingdong Chen · Qiao-Feng Dai · Shaolong Tie · Sheng Lan · Xuehua Wang · Xuehua Wang
Group‐Velocity‐Controlled and Gate‐Tunable Directional Excitation of Polaritons in Graphene‐Boron Nitride Heterostructures Jinwei Zhang · Felix Schulze · Ka Fai Mak · Vladimir Pervak · Dominik Bauer · Dirk Sutter · Oleg Pronin · Oleg Pronin
Vertical-Cavity Silicon-Integrated Laser with In-Plane Waveguide Emission at 850 nm S. V. Makarov · A. S. Zalogina · Mohammad Tajik · Dmitry A. Zuev · Mikhail V. Rybin · Aleksandr Kuchmizhak · Saulius Juodkazis · Saulius Juodkazis · Yuri S. Kivshar · Yuri S. Kivshar
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Quantum Sensing of Motion in Colloids via Time-Dependent Purcell Effect Wang Huan · Zhang Yonglai · Wang Wei · Ding Hong · Sun Hongbo · Sun Hongbo
Trapping Light in Plain Sight: Embedded Photonic Eigenstates in Zero‐Index Metamaterials Nan Zhang · Zhiyuan Gu · Kaiyang Wang · Meng Li · Li Ge · Li Ge · Shumin Xiao · Qinghai Song · Qinghai Song
Phase Stabilized α‐CsPbI3 Perovskite Nanocrystals for Photodiode Applications (Laser Photonics Rev. 12(1)/2018) Sulakshna Kumari · Emanuel P. Haglund · Johan S. Gustavsson · Anders Larsson · Günther Roelkens · Roel Baets · Roel Baets
Few‐layer Bismuthene: Sonochemical Exfoliation, Nonlinear Optics and Applications for Ultrafast Photonics with Enhanced Stability (Laser Photonics Rev. 12(1)/2018) Du Bowen · Lin Li · Liu Wei · Zu Shuai · Yu Ying · Li Ziwei · Kang Yimin · Peng Hailin · Zhu Xing · Fang Zheyu · Fang Zheyu
Ghost imaging using optical correlations Kyu Min Sim · Abhishek Swarnkar · Angshuman Nag · Dae Sung Chung · Dae Sung Chung
Observation of Type I Photonic Weyl Points in Optical Frequencies Maria Moffa · Andrea Camposeo · Vito Fasano · Barbara Fazio · Maria Antonia Iatì · Onofrio M. Maragò · Rosalba Saija · Heinz-Christoph Schröder · Werner E. G. Müller · Dario Pisignano · Dario Pisignano
Non‐Volatile Silicon Photonics Using Nanoscale Flash Memory Technology Yinxing Ding · Xiaokang Song · Ping Jiang · Rongzhen Jiao · Lulu Wang · Li Yu · Jiasen Zhang · Jiasen Zhang
Silicon Photonics Circuit Design: Methods, Tools and Challenges Weiwei Pan · Lei Zhang · Huawei Jiang · Xuezong Yang · Shuzhen Cui · Yan Feng · Yan Feng
High-Power, High-Efficiency Tm:YAG and Ho:YAG Thin-Disk Lasers Hongnan Xu · Yaocheng Shi · Yaocheng Shi
Directional Optical Travelling Wave Antenna Based on Surface Plasmon Transmission Line Anar K. Ospanova · Ivan V. Stenishchev · Alexey A. Basharin · Alexey A. Basharin
Chip‐Scale Fabrication of Uniform Lead Halide Perovskites Microlaser Array and Photodetector Array Lu Lu · Zhiming Liang · Leiming Wu · Yunxiang Chen · Yufeng Song · Sathish Chander Dhanabalan · Joice Sophia Ponraj · Biqin Dong · Yuanjiang Xiang · Feng Xing · Dianyuan Fan · Han Zhang · Han Zhang
Ultrafast Raman fiber Laser with Random Distributed Feedback Jingyi Tian · Jingyi Tian · Hao Luo · Qiang Li · Xuelu Pei · Kaikai Du · Min Qiu · Min Qiu
Ultra-Sharp Multi-Mode Waveguide Bending Assisted with Metamaterial-Based Mode Converters Jianxun Liu · Sung Park · Derek Nowak · Mengchuan Tian · Yanqing Wu · Hua Long · Kai Wang · Bing Wang · Peixiang Lu · Peixiang Lu · Peixiang Lu
Anapole Mode Sustaining Silicon Metamaterials in Visible Spectral Range (Laser Photonics Rev. 12(7)/2018) Pawel Karpinski · Steven Jones · Daniel Andrén · Mikael Käll · Mikael Käll
Biomineral Amorphous Lasers through Light-Scattering Surfaces Assembled by Electrospun Fiber Templates (Laser Photonics Rev. 12(1)/2018) A. S. Kadochkin · Ivan Shishkin · Alexander S. Shalin · Pavel Ginzburg · Pavel Ginzburg
Diamond‐based concept for combining beams at very high average powers Xu Quan · Zhang Xueqian · Xu Yuehong · Ouyang Chunmei · Tian Zhen · Gu Jianqiang · Li Jensen · Zhang Shuang · Han Jiaguang · Zhang Weili · Zhang Weili
Dry-etching-assisted femtosecond laser machining Huan Wang · Yong-Lai Zhang · Wei Wang · Hong Ding · Hong-Bo Sun · Hong-Bo Sun
Controlling fluorescence emission with split-ring-resonator-based plasmonic metasurfaces Zheming Zhao · Bo Wu · Xunsi Wang · Zhanghao Pan · Zijun Liu · Peiqing Zhang · Xiang Shen · Qiuhua Nie · Shixun Dai · Rongping Wang · Rongping Wang · Rongping Wang
On‐chip laser processing for the development of multifunctional microfluidic chips (Laser Photonics Rev. 11(2)/2017) Zheming Zhao · Bo Wu · Xunsi Wang · Zhanghao Pan · Zijun Liu · Peiqing Zhang · Xiang Shen · Qiuhua Nie · Shixun Dai · Rongping Wang · Rongping Wang
Mid-infrared supercontinuum covering 2.0-16 μm in a low-loss telluride single-mode fiber Aaron McKay · David J. Spence · David W. Coutts · Richard P. Mildren · Richard P. Mildren
Mid-infrared supercontinuum covering 2.0-16 μm in a low-loss telluride single-mode fiber (Laser Photonics Rev. 11(2)/2017) Aabid Patel · Vladmir T. Tikhonchuk · Jingyu Zhang · Peter G. Kazansky · Peter G. Kazansky
Realization of controllable photonic molecule based on three ultrahigh-Q microtoroid cavities (Laser Photonics Rev. 11(2)/2017) Si Luo · Qiang Li · Yuanqing Yang · Xingxing Chen · Wei Wang · Yurui Qu · Min Qiu · Min Qiu
Fluorescent and lasing whispering gallery mode microresonators for sensing applications Xue-Qing Liu · Qi-Dai Chen · Kai-Min Guan · Zhuo-Chen Ma · Yan-Hao Yu · Qian-Kun Li · Zhen-Nan Tian · Hong-Bo Sun · Hong-Bo Sun
Non‐paraxial polarization spatio‐temporal coupling in ultrafast laser material processing Zhou Lei-Ming · Xiao Ke-Wen · Chen Jun · Zhao Nan · Zhao Nan
偏光制御表面プラズモンホログラフィー【Powered by NICT】 Xu Quan · Zhang Xueqian · Xu Yuehong · Ouyang Chunmei · Tian Zhen · Gu Jianqiang · Li Jensen · Zhang Shuang · Han Jiaguang · Zhang Weili · Zhang Weili
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Ultrafast on-Chip Remotely-Triggered All-Optical Switching Based on Epsilon-Near-Zero Nanocomposites Issa Tamer · Sebastian Keppler · Marco Hornung · Jörg Körner · Joachim Hein · Malte C. Kaluza · Malte C. Kaluza
Dark plasmonic modes in diatomic gratings for plasmoelectronics Chao Yang · Xiaoshun Jiang · Qian Hua · Shiyue Hua · Yuan Chen · Jiyang Ma · Min Xiao · Min Xiao
On-chip laser processing for the development of multifunctional microfluidic chips Tess Reynolds · Nicolas Riesen · Nicolas Riesen · A. Meldrum · Xudong Fan · Jonathan M. M. Hall · Tanya M. Monro · Tanya M. Monro · Alexandre François · Alexandre François · Alexandre François
Light manipulation in organic light-emitting devices by integrating micro/nano patterns Shoufeng Lan · Sean P. Rodrigues · Mohammad Taghinejad · Wenshan Cai · Wenshan Cai
Chirality Driven by Magnetic Dipole Response for Demultiplexing of Surface Waves Hongnan Xu · Yaocheng Shi · Yaocheng Shi
偏光制御表面プラズモンホログラフィー(レーザフォトニクスRev.11(1)/2017)【Powered by NICT】 Zhen Chai · Xiaoyong Hu · Xiaoyong Hu · Feifan Wang · Chong Li · Yutian Ao · You Wu · Kebin Shi · Kebin Shi · Hong Yang · Hong Yang · Qihuang Gong · Qihuang Gong · Qihuang Gong
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Aluminum Nanotripods for Light-Matter Coupling Robust to Nanoemitter Orientation Zhou Wenjun · Zhou Yan · Albert Jacques · Albert Jacques
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多機能マイクロ流体チップの開発のためのオンチップレーザ処理【Powered by NICT】 Meir Grajower · Noa Mazurski · Joseph Shappir · Uriel Levy · Uriel Levy
Light‐Induced Tuning and Reconfiguration of Nanophotonic Structures Yuyu Jiang · Xiao Lin · Tony Low · Baile Zhang · Hongsheng Chen · Hongsheng Chen
垂直Au グラフェンハイブリッドナノ構造におけるプラズモンホットエレクトロントンネリング光検出【Powered by NICT】 Francesco Monticone · Francesco Monticone · Hugo M. Doeleman · Wouter den Hollander · A. Femius Koenderink · Andrea Alù · Andrea Alù
Flexible Manipulation of the Polarization Conversions in a Structured Vector Field in Free Space (Laser Photonics Rev. 11(6)/2017) Zonghui Duan · Yujie Wang · Gang Li · Shuai Wang · Ningbo Yi · Shuai Liu · Shumin Xiao · Shumin Xiao · Qinghai Song · Qinghai Song · Qinghai Song
Dynamic Thermal Emission Control Based on Ultrathin Plasmonic Metamaterials Including Phase-Changing Material GST Nicolas Volet · Xu Yi · Qi-Fan Yang · Eric J. Stanton · Paul A. Morton · Ki Youl Yang · Kerry J. Vahala · John E. Bowers · John E. Bowers
Sharing a Common Origin Between the Rotational and Linear Doppler Effects (Laser Photonics Rev. 11(6)/2017) Valentin A. Milichko · Dmitry A. Zuev · Denis G. Baranov · Denis G. Baranov · G. P. Zograf · Katerina Volodina · Andrei A. Krasilin · Ivan Mukhin · Pavel A. Dmitriev · Vladimir V. Vinogradov · S. V. Makarov · Pavel A. Belov · Pavel A. Belov
Scattering Invisibility With Free-Space Field Enhancement of All-Dielectric Nanoparticles (Laser Photonics Rev. 11(6)/2017) Haichun Liu · Kai Huang · Rashid R. Valiev · Qiuqiang Zhan · Yong Zhang · Hans Ågren · Hans Ågren
Tunable Visible Cloaking Using Liquid Diffusion (Laser Photonics Rev. 11(6)/2017) Liang Fang · Miles J. Padgett · Jian Wang · Jian Wang
Nanolasers Enabled by Metallic Nanoparticles: From Spasers to Random Lasers Wei Liu · Andrey E. Miroshnichenko · Andrey E. Miroshnichenko
Comb of high-Q Resonances in a Compact Photonic Cavity (Laser Photonics Rev. 11(6)/2017) Xiaoqiang Zhu · Li Liang · Yunfeng Zuo · Xuming Zhang · Yi Yang · Yi Yang
Electro-optic Polymer Ring Resonator Modulator on a Flat Silicon-on-Insulator Yves Bidaux · Filippos Kapsalidis · Pierre Jouy · Mattias Beck · Jérôme Faist · Jérôme Faist
Tunable Visible Cloaking Using Liquid Diffusion Daoxin Dai · Chenlei Li · Shipeng Wang · Hao Wu · Yaocheng Shi · Zhihang Wu · Shiming Gao · Tingge Dai · Hui Yu · H.K. Tsang · H.K. Tsang
Silicon Photonics Rectangular Universal Interferometer Feng Qiu · Andrew M. Spring · Jianxun Hong · Hiroki Miura · Tsubasa Kashino · Takamasa Kikuchi · Masaaki Ozawa · Hideyuki Nawata · Keisuke Odoi · Shiyoshi Yokoyama · Shiyoshi Yokoyama
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Optical levitation of nanodiamonds by doughnut beams in vacuum: Optical levitation of nanodiamonds by doughnut beams in vacuum Jing Feng · Yue-Feng Liu · Yan-Gang Bi · Hong-Bo Sun · Hong-Bo Sun
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Non-Rare-Earth K2XF7:Mn4+ (X = Ta, Nb): A Highly-Efficient Narrow-Band Red Phosphor Enabling the Application in Wide-Color-Gamut LCD Rui-Pin Chen · Zhaozhong Chen · Yuan Gao · Jianping Ding · Sailing He · Sailing He
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Novel BeZnO Based Self-Powered Dual-Color UV Photodetector Realized via a One-Step Fabrication Method Diego Guzman-Silva · Robert Brüning · Felix Zimmermann · Christian Vetter · Markus Gräfe · Matthias Heinrich · Stefan Nolte · Michael Duparré · Andrea Aiello · Andrea Aiello · Marco Ornigotti · Alexander Szameit · Alexander Szameit
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Dynamic Thermal Emission Control Based on Ultrathin Plasmonic Metamaterials Including Phase-Changing Material GST (Laser Photonics Rev. 11(5)/2017) Gaozhong Wang · Kangpeng Wang · Beata M. Szydłowska · Aidan A. Baker-Murray · Jing Jing Wang · Yanyan Feng · Xiaoyan Zhang · Jun Wang · Werner J. Blau · Werner J. Blau
Ultrafast Nonlinear Optical Properties of a Graphene Saturable Mirror in the 2 μm Wavelength Region (Laser Photonics Rev. 11(5)/2017) Yurui Qu · Qiang Li · Kaikai Du · Lu Cai · Jun Lu · Min Qiu · Min Qiu
Ultrafast on-Chip Remotely-Triggered All-Optical Switching Based on Epsilon-Near-Zero Nanocomposites (Laser Photonics Rev. 11(5)/2017) Lu Lu · Zhiming Liang · Leiming Wu · Yunxiang Chen · Yufeng Song · Sathish Chander Dhanabalan · Joice Sophia Ponraj · Biqin Dong · Yuanjiang Xiang · Feng Xing · Dianyuan Fan · Han Zhang · Han Zhang
The Characterization of Absorptive Nonlinearities (Laser Photonics Rev. 11(5)/2017) Gaozhong Wang · Kangpeng Wang · Beata M. Szydłowska · Aidan A. Baker-Murray · Jing Jing Wang · Yanyan Feng · Xiaoyan Zhang · Jun Wang · Werner J. Blau · Werner J. Blau
高変換効率を持つ微小共振器カー周波数コム【Powered by NICT】 Zhen Chai · Xiaoyong Hu · Feifan Wang · Chong Li · Yutian Ao · You Wu · Kebin Shi · Hong Yang · Qihuang Gong · Qihuang Gong
Semiconductor optical amplifiers at 2.0-µm wavelength on silicon Huan Wang · Yong-Lai Zhang · Wei Wang · Hong Ding · Hong-Bo Sun · Hong-Bo Sun
Whispering gallery mode hybridization in photonic molecules: Whispering gallery mode hybridization in photonic molecules Nicolas Volet · Alexander Spott · Eric J. Stanton · Michael L. Davenport · Lin Chang · Jon Peters · Travis C. Briles · I. Vurgaftman · Jerry R. Meyer · John E. Bowers · John E. Bowers
Augmented low index waveguide for confining light in low index media Francesco Lenzini · Ben Haylock · J. C. Loredo · Raphael A. Abrahão · Nor A. Zakaria · Sachin Kasture · I. Sagnes · A. Lemaître · Hoang-Phuong Phan · Dzung Viet Dao · P. Senellart · M. P. Almeida · Andrew White · Mirko Lobino · Mirko Lobino
金属Mobiusナノリングにおけるトポロジーが誘起した異常なプラズモンモード【Powered by NICT】 Lepeshov Sergey · Gorodetsky Andrei · Krasnok Alexander · Rafailov Edik · Belov Pavel · Belov Pavel
Giant Three-Photon Absorption in Monolayer MoS2 and Its Application in Near-Infrared Photodetection Jia Yuan Yin · Jia Yuan Yin · Jian Ren · Lei Zhang · Haijiang Li · Tie Jun Cui · Tie Jun Cui
High Average Power Near-Infrared Few-Cycle Lasers Long Wen · Long Wen · Yifu Chen · Wanwan Liu · Qiang Su · James Grant · Zhiyang Qi · Qilong Wang · Qin Chen · Qin Chen · Qin Chen
Enhanced Photoelectric and Photothermal Responses on Silicon Platform by Plasmonic Absorber and Omni-Schottky Junction Yongguan Ke · Xizhou Qin · Feng Mei · Honghua Zhong · Yuri S. Kivshar · Chaohong Lee · Chaohong Lee
Photon Correlations from the Mollow Triplet Zhang Wuhong · Wang Jikang · Li Fangshu · Chen Lixiang · Karimi Ebrahim · Karimi Ebrahim
フォトニック分子におけるウィスパリングギャラリーモードハイブリダイゼーション【Powered by NICT】 Lepeshov Sergey · Gorodetsky Andrei · Krasnok Alexander · Rafailov Edik · Belov Pavel · Belov Pavel
単一Al被覆ZnSナノベルトからの濃縮第2高調波発生【Powered by NICT】 Lan Shoufeng · P Rodrigues Sean · Taghinejad Mohammad · Cai Wenshan · Cai Wenshan
光ナノアンテナによるテラヘルツ光伝導アンテナ動作の増強【Powered by NICT】 Yin Yin · Li Shilong · Engemaier Vivienne · Saei Ghareh Naz Ehsan · Giudicatti Silvia · Ma Libo · G Schmidt Oliver · G Schmidt Oliver
plasmoelectronicsの二原子格子における暗プラズモンモード【Powered by NICT】 Feng Jing · Liu Yue-Feng · Bi Yan-Gang · Sun Hong-Bo · Sun Hong-Bo
マイクロ/ナノ統合パターンによる有機発光素子の光操作【Powered by NICT】 Reynolds Tess · Riesen Nicolas · Meldrum Al · Fan Xudong · M M Hall Jonathan · M Monro Tanya · Francois Alexandre · Francois Alexandre
Ultrahigh Off‐Resonant Field Effects in Semiconductors Feng Zhou · Wei Ji · Wei Ji · Wei Ji
光ナノアンテナ(レーザフォトニクスRev.11(1)/2017)によるテラヘルツ光伝導アンテナ動作の増強【Powered by NICT】 Yang Chao · Jiang Xiaoshun · Hua Qian · Hua Shiyue · Chen Yuan · Ma Jiyang · Xiao Min · Xiao Min
センシング応用のための蛍光とレーザ発振ささやきの回廊モード微小共振器【Powered by NICT】 Abid Muhammad Irfan · Wang Lei · Chen Qidai · Wang Xuewen · Juodkazis Saulius · Sun Hongbo · Sun Hongbo
3超高Qマイクロトロイド共振器に基づく制御可能なフォトニック分子の実現【Powered by NICT】 Cho Jaehee · Park Jun Hyuk · Kim Jong Kyu · Schubert E Fred · Schubert E Fred
生体模倣階層的3次元テクスチャの角度多重化光印刷【Powered by NICT】 Zhang Jingjing · Liao Zhen · Luo Yu · Shen Xiaopeng · A Maier Stefan · Cui Tie Jun · Cui Tie Jun
白色発光ダイオード:歴史,進歩と将来【Powered by NICT】 Turquet Leo · Kakko Joona-Pekko · Zang Xiaorun · Naskali Liisa · Karvonen Lasse · Jiang Hua · Huhtio Teppo · Kauppinen Esko · Lipsanen Harri · Kauranen Martti · Bautista Godofredo · Bautista Godofredo
成り済ましプラズモンハイブリダイゼーション【Powered by NICT】 Li Zhaohan · Hu Yongxiang · Shen Huaibin · Lin Qingli · Wang Lei · Wang Hongzhe · Zhao Weili · Li Lin Song · Li Lin Song
空間位相成形ビームを用いた個々のナノワイヤからの調整可能な第2高調波発生【Powered by NICT】 Zhao Zheming · Wu Bo · Wang Xunsi · Pan Zhanghao · Liu Zijun · Zhang Peiqing · Shen Xiang · Nie Qiuhua · Dai Shixun · Wang Rongping · Wang Rongping
三座配位チオールでキャップした量子ドットからなる効率的かつ長寿命緑色発光ダイオード【Powered by NICT】 Rafik Naccache · Rafik Naccache · Anna Mazhorova · Matteo Clerici · Matteo Clerici · Riccardo Piccoli · Larousse Khosravi Khorashad · Alexander O. Govorov · Alexander O. Govorov · Luca Razzari · Fiorenzo Vetrone · Fiorenzo Vetrone · Fiorenzo Vetrone · Roberto Morandotti · Roberto Morandotti · Roberto Morandotti
Self-Referenced Measurement of Light Waves (Laser Photonics Rev. 11(4)/2017) Jan Rothhardt · Jan Rothhardt · Steffen Hädrich · Jc Delagnes · Eric Cormier · Jens Limpert · Jens Limpert
Short Terahertz Pulse Generation from a Dispersion Compensated Modelocked Semiconductor Laser Hideto Shirai · Yutaka Nomura · Takao Fuji · Takao Fuji
Terahertz Thermometry: Combining Hyperspectral Imaging and Temperature Mapping at Terahertz Frequencies Volet Nicolas · Spott Alexander · J Stanton Eric · L Davenport Michael · Chang Lin · D Peters Jon · C Briles Travis · Vurgaftman Igor · R Meyer Jerry · E Bowers John · E Bowers John
Resonant Lattice Kerker Effect in Metasurfaces With Electric and Magnetic Optical Responses Denis G. Baranov · Roman S. Savelev · Sergey V. Li · Alexander E. Krasnok · Andrea Alù · Andrea Alù
Microresonator Kerr frequency combs with high conversion efficiency Ruopeng Li · Qiang Peng · Bing Han · Yuanyu Ke · Xin Wang · Xubing Lu · Xueyuan Wu · Jiantao Kong · Zhifeng Ren · Eser Metin Akinoglu · Michael Giersig · Guofu Zhou · Jun-Ming Liu · Jun-Ming Liu · Krzysztof Kempa · Krzysztof Kempa · Jinwei Gao · Jinwei Gao
Photon-nanosieve for ultrabroadband and large-angle-of-view holograms Denis G. Baranov · Denis G. Baranov · Roman S. Savelev · Sergey V. Li · Alexander E. Krasnok · Andrea Alù · Andrea Alù
Highly reflective subtractive color filters capitalizing on a silicon metasurface integrated with nanostructured aluminum mirrors Wei Liu · Andrey E. Miroshnichenko · Andrey E. Miroshnichenko
Modifying magnetic dipole spontaneous emission with nanophotonic structures PoHan Chang · Charles Lin · Amr S. Helmy · Amr S. Helmy
Scattering Invisibility With Free-Space Field Enhancement of All-Dielectric Nanoparticles Philippe Lalanne · Wei Yan · Kevin Vynck · Christophe Sauvan · Jean-Paul Hugonin · Jean-Paul Hugonin
Efficient Integrated Graphene Photonics in the Visible and Near-IR Dmitry O. Krimer · Matthias Zens · Stefan Putz · Stefan Putz · Stefan Rotter · Stefan Rotter
Diamond‐based concept for combining beams at very high average powers (Laser Photonics Rev. 11(3)/2017) Viktoriia E. Babicheva · Andrey B. Evlyukhin · Andrey B. Evlyukhin
Dry-etching-assisted femtosecond laser machining (Laser Photonics Rev. 11(3)/2017) M. Z. Alam · X. Sun · Mo Mojahedi · J. Stewart Aitchison · J. Stewart Aitchison
White light-emitting diodes: History, progress, and future Lei-Ming Zhou · Ke-Wen Xiao · Jun Chen · Nan Zhao · Nan Zhao
High Average Power Near-Infrared Few-Cycle Lasers (Laser Photonics Rev. 11(4)/2017) Ulrich Huttner · Mackillo Kira · S. W. Koch · S. W. Koch
Modifying magnetic dipole spontaneous emission with nanophotonic structures (Laser Photonics Rev. 11(3)/2017) Si Luo · Qiang Li · Yuanqing Yang · Xingxing Chen · Wei Wang · Yurui Qu · Min Qiu · Min Qiu
Active demultiplexing of single photons from a solid-state source (Laser Photonics Rev. 11(3)/2017) Xin Hu · Gaiqi Xu · Gaiqi Xu · Long Wen · Huacun Wang · Yuncheng Zhao · Yaxin Zhang · David R. S. Cumming · Qin Chen · Qin Chen
Controlling fluorescence emission with split‐ring‐resonator‐based plasmonic metasurfaces (Laser Photonics Rev. 11(3)/2017) George L. Roberts · George L. Roberts · Marco Lucamarini · James F. Dynes · Seb J. Savory · Zhiliang Yuan · A. J. Shields · A. J. Shields
Modulator-free coherent-one-way quantum key distribution Changjun Min · Jinpeng Liu · Ting Lei · Guangyuan Si · Zhenwei Xie · Jiao Lin · Jiao Lin · Jiao Lin · Luping Du · Xiaocong Yuan · Xiaocong Yuan
Optical Chirality from Dark‐Field Illumination of Planar Plasmonic Nanostructures Zhechao Wang · Amin Abbasi · Utsav Dave · Andreas De Groote · Sulakshna Kumari · Bernadette Kunert · Clement Merckling · Marianna Pantouvaki · Yuting Shi · Bin Tian · Kasper Van Gasse · Jochem Verbist · Ruijun Wang · Weiqiang Xie · Jing Zhang · Yunpeng Zhu · Johan Bauwelinck · Xin Yin · Zeger Hens · Joris Van Campenhout · Bart Kuyken · Roel Baets · Geert Morthier · Dries Van Thourhout · Günther Roelkens · Günther Roelkens
Self-Referenced Measurement of Light Waves F. Wang · Hanond Nong · Tobias Fobbe · Valentino Pistore · Sarah Houver · Sergej Markmann · Nathan Jukam · Maria I. Amanti · Carlo Sirtori · Souad Moumdji · Raffaele Colombelli · Lianhe Li · E. H. Linfield · Giles Davies · J. Mangeney · J. Tignon · Sukhdeep S. Dhillon · Sukhdeep S. Dhillon
Novel Light Source Integration Approaches for Silicon Photonics Jan Rothhardt · Steffen Hädrich · Jc Delagnes · Eric Cormier · Jens Limpert · Jens Limpert
Short Terahertz Pulse Generation from a Dispersion Compensated Modelocked Semiconductor Laser (Laser Photonics Rev. 11(4)/2017) F. Wang · Hanond Nong · Tobias Fobbe · Valentino Pistore · Sarah Houver · Sergej Markmann · Nathan Jukam · Maria I. Amanti · Carlo Sirtori · Souad Moumdji · Raffaele Colombelli · Lianhe Li · E. H. Linfield · Giles Davies · J. Mangeney · J. Tignon · Sukhdeep S. Dhillon · Sukhdeep S. Dhillon
低損失テルル化単一モードファイバにおける中赤外スーパーコンティニウム被覆2.0 16μm【Powered by NICT】 O Tollerud Jonathan · A Davis Jeffrey · A Davis Jeffrey
光子の小数をもつ光学渦を明らかにする【Powered by NICT】 Hu Hongbo · Wang Kai · Long Hua · Han Xiaobo · Chen Jiawei · Wang Bing · Lu Peixiang · Lu Peixiang
二重量子分光法における分離経路は励起子相互作用を明らかにする【Powered by NICT】 Jiang Wei · Ma Yungui · Yuan Jun · Yin Ge · Wu Wenhui · He Sailing · He Sailing
Revealing optical vortices with a small number of photons Jonathan O. Tollerud · Jeffrey A. Davis · Jeffrey A. Davis
Separating pathways in double-quantum optical spectroscopy reveals excitonic interactions Hongbo Hu · Kai Wang · Hua Long · Xiaobo Han · Jiawei Chen · Bing Wang · Peixiang Lu · Peixiang Lu · Peixiang Lu
Polarization‐controlled surface plasmon holography Kai Hu · Feng Teng · Lingxia Zheng · Pingping Yu · Zhiming Zhang · Hongyu Chen · Xiaosheng Fang · Xiaosheng Fang
Concentrated second-harmonic generation from a single Al-covered ZnS nanobelt Joel Carpenter · Joel Carpenter · Benjamin J. Eggleton · Jochen Schröder · Jochen Schröder · Jochen Schröder
Binary response Se/ZnO p-n heterojunction UV photodetector with high on/off ratio and fast speed Zhaohan Li · Yongxiang Hu · Huaibin Shen · Qingli Lin · Lei Wang · Hongzhe Wang · Weili Zhao · Lin Song Li · Lin Song Li
Comparison of principal modes and spatial eigenmodes in multimode optical fibre Yongguan Ke · Xizhou Qin · Feng Mei · Honghua Zhong · Yuri S. Kivshar · Chaohong Lee · Chaohong Lee · Chaohong Lee
シリコン上の2.0μm波長における半導体光増幅器【Powered by NICT】 Zhang Wuhong · Wang Jikang · Li Fangshu · Chen Lixiang · Karimi Ebrahim · Karimi Ebrahim
Deformable broadband metamaterial absorbers engineered with an analytical spatial Kramers-Kronig permittivity profile Wenjun Zhou · Yan Zhou · Jacques Albert · Jacques Albert
Angle‐multiplexed optical printing of biomimetic hierarchical 3D textures Bowen Du · Li Lin · Wei Liu · Shuai Zu · Ying Yu · Ziwei Li · Yimin Kang · Hailin Peng · Xing Zhu · Zheyu Fang · Zheyu Fang
A true fiber optic refractometer Wuhong Zhang · Jikang Wang · Fangshu Li · Lixiang Chen · Ebrahim Karimi · Ebrahim Karimi
Plasmonic hot electron tunneling photodetection in vertical Au–graphene hybrid nanostructures Chao Yang · Xiaoshun Jiang · Xiaoshun Jiang · Qian Hua · Shiyue Hua · Yuan Chen · Jiyang Ma · Min Xiao · Min Xiao · Min Xiao · Min Xiao
Revealing optical vortices with a small number of photons (Laser Photonics Rev. 11(1)/2017) Jingjing Zhang · Zhen Liao · Yu Luo · Xiaopeng Shen · Stefan A. Maier · Tie Jun Cui · Tie Jun Cui
Realization of controllable photonic molecule based on three ultrahigh-Q microtoroid cavities Philippe Lalanne · Pierre Chavel · Pierre Chavel · Pierre Chavel
Spoof plasmon hybridization Sergey Lepeshov · Andrei Gorodetsky · Alexander E. Krasnok · Edik U. Rafailov · Pavel A. Belov · Pavel A. Belov
Metalenses at visible wavelengths: past, present, perspectives Quan Xu · Xueqian Zhang · Yuehong Xu · Chunmei Ouyang · Zhen Tian · Jianqiang Gu · Jensen Li · Shuang Zhang · Jiaguang Han · Jiaguang Han
Enhancement of terahertz photoconductive antenna operation by optical nanoantennas (Laser Photonics Rev. 11(1)/2017) Sergey Lepeshov · Andrei Gorodetsky · Alexander E. Krasnok · Edik U. Rafailov · Pavel A. Belov · Pavel A. Belov
Polarization-controlled surface plasmon holography (Laser Photonics Rev. 11(1)/2017) Jaehee Cho · Jun Hyuk Park · Jong Kyu Kim · E. Fred Schubert · E. Fred Schubert
Enhancement of terahertz photoconductive antenna operation by optical nanoantennas Yangcheng Li · Farzaneh Abolmaali · Kenneth W. Allen · Nicholaos I. Limberopoulos · Augustine Urbas · Yury P. Rakovich · Yury P. Rakovich · Alexey V. Maslov · Vasily N. Astratov · Vasily N. Astratov · Vasily N. Astratov
Tailorable second-harmonic generation from an individual nanowire using spatially phase-shaped beams Quan Xu · Xueqian Zhang · Yuehong Xu · Chunmei Ouyang · Zhen Tian · Jianqiang Gu · Jensen Tsan Hang Li · Shuang Zhang · Jiaguang Han · Jiaguang Han
Efficient and long‐life green light‐emitting diodes comprising tridentate thiol capped quantum dots Wei Jiang · Yungui Ma · Jun Yuan · Ge Yin · Wenhui Wu · Sailing He · Sailing He · Sailing He
高オン/オフ比と高速速度を持つSe/ZnO p‐nヘテロ接合紫外光検出器二成分応答【Powered by NICT】 Romain Peretti · V. Liverini · Martin J. Süess · Yong Liang · Pierre Baptiste Vigneron · Johanna Wolf · Christopher Bonzon · Alfredo Bismuto · Wondwosen Metaferia · M. Balaji · Sebastian Lourdudoss · E. Gini · Mattias Beck · Jérôme Faist · Jérôme Faist
Active demultiplexing of single photons from a solid-state source Patrizio Vaiano · Benito Carotenuto · Marco Pisco · Armando Ricciardi · G. Quero · M. Consales · Alessio Crescitelli · E. Esposito · A. Cusano · A. Cusano
分析空間Kramers‐Kronig誘電率分布を持つ設計された変形可能な広帯域メタマテリアル吸収体【Powered by NICT】 Thorsten Svend Rasmussen · Yi Yu · Jesper Mørk · Jesper Mørk
Theory of Self-pulsing in Photonic Crystal Fano Lasers Cheng Hung Chu · Ming Lun Tseng · Jie Chen · Pin Chieh Wu · Y. Chen · Hsiang-Chu Wang · Ting-Yu Chen · Wen Ting Hsieh · Hui Jun Wu · Greg Sun · Din Ping Tsai · Din Ping Tsai
(レーザフォトニクスRev.11(1)/2017)光子の少数を用いた光学渦を明らかにする【Powered by NICT】 Hu Kai · Teng Feng · Zheng Lingxia · Yu Pingping · Zhang Zhiming · Chen Hongyu · Fang Xiaosheng · Fang Xiaosheng
Ultrafast all-optical order-to-chaos transition in silicon photonic crystal chips Zhiyuan Gu · Nan Zhang · Quan Lyu · Meng Li · Shumin Xiao · Qinghai Song · Qinghai Song
Energy equipartition and unidirectional emission in a spaser nanolaser Roman Bruck · Changxu Liu · Otto L. Muskens · Andrea Fratalocchi · Andrea Di Falco · Andrea Di Falco
Invisibility cloaking in light-scattering media Christian Kränkel · Daniel-Timo Marzahl · Francesca Moglia · Günter Huber · Philip Werner Metz · Philip Werner Metz
Out of the blue: semiconductor laser pumped visible rare-earth doped lasers Alexey P. Slobozhanyuk · Alexander N. Poddubny · Ivan S. Sinev · A. K. Samusev · Ye Feng Yu · Arseniy I. Kuznetsov · Andrey E. Miroshnichenko · Yuri S. Kivshar · Yuri S. Kivshar
Enhanced photonic spin Hall effect with subwavelength topological edge states S. V. Makarov · Valentin A. Milichko · Ivan Mukhin · Ivan Shishkin · Dmitriy A. Zuev · A M Mozharov · Alexander E. Krasnok · Pavel A. Belov · Pavel A. Belov
Controllable femtosecond laser‐induced dewetting for plasmonic applications Philip Werner Metz · Daniel-Timo Marzahl · Ahmad Majid · Christian Kränkel · Günter Huber · Günter Huber
Efficient continuous wave laser operation of Tb3+-doped fluoride crystals in the green and yellow spectral regions Mario Siciliani de Cumis · S. Borri · Giacomo Insero · Iacopo Galli · Anatoliy A. Savchenkov · Danny Eliyahu · Vladimir S. Ilchenko · Naota Akikusa · Andrey B. Matsko · Lute Maleki · Paolo De Natale · Paolo De Natale
Microcavity‐Stabilized Quantum Cascade Laser Ryan P. Marchildon · Amr S. Helmy · Amr S. Helmy
High energy Yb:YAG active mirror laser system for transform limited pulses bridging the picosecond gap Yuan-Yuan Zhao · Yong-Liang Zhang · Mei-Ling Zheng · Xian-Zi Dong · Xuan-Ming Duan · Zhen-Sheng Zhao · Zhen-Sheng Zhao
Deterministic separation of arbitrary photon pair states in integrated quantum circuits Lorenz von Grafenstein · Martin Bock · Günter Steinmeyer · Uwe Griebner · Thomas Elsaesser · Thomas Elsaesser
Taming chaos: 16 mJ picosecond Ho:YLF regenerative amplifier with 0.7 kHz repetition rate Taewoo Kim · Renjie Zhou · Renjie Zhou · Lynford L. Goddard · Gabriel Popescu · Gabriel Popescu
Solving inverse scattering problems in biological samples by quantitative phase imaging Radoslaw Kolkowski · Radoslaw Kolkowski · J. Szeszko · B. Dwir · E. Kapon · Joseph Zyss · Joseph Zyss
Non‐centrosymmetric plasmonic crystals for second‐harmonic generation with controlled anisotropy and enhancement Shumei Chen · Shumei Chen · Yuan Cai · Guixin Li · Shuang Zhang · Kok Wai Cheah · Kok Wai Cheah
Geometric Metasurface Fork Gratings for Vortex-beam Generation and Manipulation Gregory Moille · Sylvain Combrié · Laurence Morgenroth · Gaëlle Lehoucq · François Neuilly · Bowen Hu · Didier Decoster · Alfredo De Rossi · Alfredo De Rossi
Experimental demonstration of PT-symmetric stripe lasers (Laser Photonics Rev. 10(4)/2016) Irina Khromova · P. Kužel · Igal Brener · John L. Reno · U-Chan Chung Seu · Catherine Elissalde · Mario Maglione · Patrick Mounaix · Oleg Mitrofanov · Oleg Mitrofanov
Laser control of electron matter waves Wenhai Li · Dong Li · Guifang Dong · Lian Duan · Jia-Lin Sun · Deqiang Zhang · Liduo Wang · Liduo Wang
High-stability organic red-light photodetector for narrowband applications Xue-Feng Jiang · Chang-Ling Zou · Li Wang · Qihuang Gong · Qihuang Gong · Yun-Feng Xiao · Yun-Feng Xiao · Yun-Feng Xiao
Whispering‐gallery microcavities with unidirectional laser emission Eui-Young Song · S. Lee · Jongwoo Hong · Kyookeun Lee · Yohan Lee · Gun-Yeal Lee · Hwi Kim · Byoungho Lee · Byoungho Lee
A double-lined metasurface for plasmonic complex-field generation Hao-Bo Jiang · Yong-Lai Zhang · Yan Liu · Xiu-Yan Fu · Yun-Fei Li · Yu-Qing Liu · Chun-Hao Li · Hong-Bo Sun · Hong-Bo Sun
Bioinspired few-layer graphene prepared by chemical vapor deposition on femtosecond laser-structured Cu foil D. G. Baranov · S. V. Makarov · Alexander E. Krasnok · Pavel A. Belov · Andrea Alù · Andrea Alù
Tuning of near‐ and far‐field properties of all‐dielectric dimer nanoantennas via ultrafast electron‐hole plasma photoexcitation Juan Sebastian Totero Gongora · Andrey E. Miroshnichenko · Yuri S. Kivshar · Andrea Fratalocchi · Andrea Fratalocchi
Integrated all-optical switch with 10 ps time resolution enabled by ALD Eric Jones · Maria Becker · Oj Jom Luiten · Herman Batelaan · Herman Batelaan
Super-resolution deep imaging with hollow Bessel beam STED microscopy Wentao Yu · Ziheng Ji · Dashan Dong · Xusan Yang · Yun-Feng Xiao · Yun-Feng Xiao · Qihuang Gong · Qihuang Gong · Peng Xi · Kebin Shi · Kebin Shi · Kebin Shi
Suppression and restoration of disorder-induced light localization mediated by PT-symmetry breaking Yaroslav V. Kartashov · Chao Hang · V. V. Konotop · Victor A. Vysloukh · Guoxiang Huang · Lluis Torner · Lluis Torner
Tunable generation of entangled photons in a nonlinear directional coupler Frank Setzpfandt · Frank Setzpfandt · Alexander S. Solntsev · James Titchener · Che Wen Wu · Chunle Xiong · R. Schiek · Thomas Pertsch · Dragomir N. Neshev · Andrey A. Sukhorukov · Andrey A. Sukhorukov
Measuring and structuring the spatial coherence length of organic light-emitting diodes Guohua Xie · Mingzhou Chen · Michael Mazilu · Shuyu Zhang · Shuyu Zhang · Ashu K. Bansal · Kishan Dholakia · Ifor D. W. Samuel · Ifor D. W. Samuel
Surface plasmon polariton assisted optical pulling force Mihail I. Petrov · Sergey Sukhov · Sergey Sukhov · A. A. Bogdanov · Alexander S. Shalin · Alexander S. Shalin · Aristide Dogariu · Aristide Dogariu
Nonlinear switching and solitons in PT‐symmetric photonic systems Sergey V. Suchkov · Andrey A. Sukhorukov · Jiahao Huang · Sergey V. Dmitriev · Chaohong Lee · Yuri S. Kivshar · Yuri S. Kivshar
Highly tunable elastic dielectric metasurface lenses Seyedeh Mahsa Kamali · Ehsan Arbabi · Amir Arbabi · Yu Horie · Andrei Faraon · Andrei Faraon
Three‐dimensional Luneburg lens at optical frequencies Rui Lu · Cai-Wang Ge · Yi-Feng Zou · Kun Zheng · Dan-Dan Wang · Teng-Fei Zhang · Lin-Bao Luo · Lin-Bao Luo
Spaceborne laser filamentation for atmospheric remote sensing Isabelle Dicaire · Vytautas Jukna · C. Praz · C. Milián · Leopold Summerer · Arnaud Couairon · Arnaud Couairon
A localized surface plasmon resonance and light confinement‐enhanced near‐infrared light photodetector Rui Lu · Cai-Wang Ge · Yi-Feng Zou · Kun Zheng · Dan-Dan Wang · Teng-Fei Zhang · Lin-Bao Luo · Lin-Bao Luo
Nanolaser arrays based on individual waved CdS nanoribbons Qinglin Zhang · Xiaoli Zhu · Yunyun Li · Junwu Liang · Tianren Chen · Peng Fan · Hong Zhou · Wei Hu · Xiujuan Zhuang · Anlian Pan · Anlian Pan
symmetry in a fractional Schrödinger equation Yiqi Zhang · Hua Zhong · Milivoj Belic · Yi Zhu · Wei-Ping Zhong · Yanpeng Zhang · Demetrios N. Christodoulides · Min Xiao · Min Xiao · Min Xiao
Lasing of Nd3+ in sapphire Felix Zimmermann · Anton Plech · Sören Richter · Andreas Tünnermann · Andreas Tünnermann · Stefan Nolte · Stefan Nolte · Stefan Nolte
The onset of ultrashort pulse-induced nanogratings Alessandro Ciattoni · Carlo Rizza · Andrea Marini · Andrea Di Falco · Daniele Faccio · Michael Scalora · Michael Scalora
Single mode lasing in transversely multi-moded PT-symmetric microring resonators Hoseein Hodaei · Mohammad-Ali Miri · Absar U. Hassan · W. E. Hayenga · Matthias Heinrich · Demetrios N. Christodoulides · Mercedeh Khajavikhan · Mercedeh Khajavikhan
Enhanced nonlinear effects in pulse propagation through epsilon-near-zero media Ingo Breunig · Ingo Breunig
Broadband 10 Gb/s operation of graphene electro-absorption modulator on silicon Yingtao Hu · Marianna Pantouvaki · Joris Van Campenhout · Steven Brems · Inge Asselberghs · Cedric Huyghebaert · P. Absil · Dries Van Thourhout · Dries Van Thourhout
Light on a beam splitter: More randomness with single photons Lukas Oberreiter · Ilja Gerhardt · Ilja Gerhardt · Ilja Gerhardt
Identification and control of multiple leaky plasmon modes in silver nanowires Hangbo Yang · Min Qiu · Qiang Li · Qiang Li
Spectral engineering of coupled open‐access microcavities Lucas C. Flatten · Aurélien A. P. Trichet · Jason M. Smith · Jason M. Smith
The generation of amplified spontaneous emission in high‐power CPA laser systems Sebastian Keppler · Alexander Sävert · Jörg Körner · Marco Hornung · Marco Hornung · Hartmut Liebetrau · Joachim Hein · Joachim Hein · Malte C. Kaluza · Malte C. Kaluza · Malte C. Kaluza
Entanglement distribution over 150 km in wavelength division multiplexed channels for quantum cryptography Djeylan Aktas · Bruno Fedrici · Florian Kaiser · Tommaso Lunghi · Laurent Labonté · Sébastien Tanzilli · Sébastien Tanzilli
Spatio-temporal dynamics in nondiffractive Bessel ultrafast laser nanoscale volume structuring: Spatio-temporal dynamics in nondiffractive Bessel… Praveen Kumar Velpula · M. K. Bhuyan · F. Courvoisier · H. Zhang · Jean-Philippe Colombier · Razvan Stoian · Razvan Stoian
Three-wave mixing in whispering gallery resonators Robert Schittny · Andreas Niemeyer · Frederik Mayer · A. Naber · Muamer Kadic · Martin Wegener · Martin Wegener
GaAs integrated quantum photonics: Towards compact and multi-functional quantum photonic integrated circuits Christof P. Dietrich · Andrea Fiore · Mark G. Thompson · M. Kamp · Sven Höfling · Sven Höfling
Splitting of magnetic dipole modes in anisotropic TiO2 micro-spheres Yuan-Yuan Zhao · Yong-Liang Zhang · Mei-Ling Zheng · Xian-Zi Dong · Xuan-Ming Duan · Zhen-Sheng Zhao · Zhen-Sheng Zhao
Experimental demonstration of PT-symmetric stripe lasers Zhiyuan Gu · Nan Zhang · Quan Lyu · Meng Li · Shumin Xiao · Qinghai Song · Qinghai Song
Three-dimensional Luneburg lens at optical frequencies (Laser Photonics Rev. 10(4)/2016) Irina Khromova · P. Kužel · Igal Brener · John L. Reno · U-Chan Chung Seu · Catherine Elissalde · Mario Maglione · Patrick Mounaix · Oleg Mitrofanov · Oleg Mitrofanov
Demonstration of local teleportation using classical entanglement Hang Lin · Tao Hu · Qingming Huang · Yao Cheng · Bo Wang · Ju Xu · Jiaomei Wang · Yuansheng Wang · Yuansheng Wang
Highly tunable elastic dielectric metasurface lenses (Laser Photonics Rev. 10(6)/2016) Fei Sun · Bin Zheng · Hongsheng Chen · Wei Jiang · Shuwei Guo · Yichao Liu · Yungui Ma · Sailing He · Sailing He · Sailing He
GaAs integrated quantum photonics: Towards compact and multi-functional quantum photonic integrated circuits: GaAs integrated quantum photonics Cheng Hung Chu · Ming Lun Tseng · Jie Chen · Pin Chieh Wu · Pin Chieh Wu · Y. Chen · Hsiang-Chu Wang · Hsiang-Chu Wang · Ting-Yu Chen · Wen Ting Hsieh · Hui Jun Wu · Greg Sun · Din Ping Tsai · Din Ping Tsai · Din Ping Tsai
Plasmonic nano-slits assisted polarization selective detour phase meta-hologram M. Casalino · Giuseppe Coppola · Richard M. De La Rue · Dylan F. Logan · Dylan F. Logan
Active dielectric metasurface based on phase‐change medium Yongsop Hwang · Yongsop Hwang · Ben Hopkins · Ben Hopkins · Dapeng Wang · Arnan Mitchell · Timothy J. Davis · Jiao Lin · Jiao Lin · Xiaocong Yuan · Xiaocong Yuan
State‐of‐the‐art all‐silicon sub‐bandgap photodetectors at telecom and datacom wavelengths Hideto Shirai · Yutaka Nomura · Takao Fuji · Takao Fuji
Topological phase transitions and Thouless pumping of light in photonic waveguide arrays (Laser Photonics Rev. 10(6)/2016) Li Yangcheng · Abolmaali Farzaneh · W Allen Kenneth · I Limberopoulos Nicholaos · Urbas Augustine · Rakovich Yury · V Maslov Alexey · N Astratov Vasily · N Astratov Vasily
Active dielectric metasurface based on phase‐change medium (Laser Photonics Rev. 10(6)/2016) Christof P. Dietrich · Andrea Fiore · Mark G. Thompson · M. Kamp · Sven Höfling · Sven Höfling
Room temperature operation of a deep etched buried heterostructure photonic crystal quantum cascade laser Qianqian Lin · Ardalan Armin · Paul L. Burn · Paul Meredith · Paul Meredith
GaAs integrated quantum photonics: Towards compact and multi-functional quantum photonic integrated circuits (Laser Photonics Rev. 10(6)/2016) Zuleykhan Tomova · Nikolaos Liaros · Sandra A. Gutierrez Razo · Steven Wolf · John T. Fourkas · John T. Fourkas
Near infrared photodetectors based on sub-gap absorption in organohalide perovskite single crystals Mohammad Soltani · Andrey B. Matsko · Lute Maleki · Lute Maleki
In situ measurement of the effective nonlinear absorption order in multiphoton photoresists Guangyu Zhao · Guangyu Zhao · Mikael Ljungholm · Elin Malmqvist · Giuseppe Bianco · Lars-Anders Hansson · Sune Svanberg · Sune Svanberg · Mikkel Brydegaard · Mikkel Brydegaard
Enabling arbitrary wavelength frequency combs on chip Jinxiang Li · Yi Xu · Qiao‐Feng Dai · Sheng Lan · Shaolong Tie · Shaolong Tie
Inelastic hyperspectral lidar for profiling aquatic ecosystems S. Chaitanya Kumar · M. Ebrahim-Zadeh · M. Ebrahim-Zadeh
Manipulating light–matter interaction in a gold nanorod assembly by plasmonic coupling Tara M. Fortier · Antoine Rolland · Franklyn Quinlan · Fred N. Baynes · Andrew J. Metcalf · Archita Hati · Andrew D. Ludlow · N. Hinkley · M. Shimizu · T. Ishibashi · Joe C. Campbell · Scott A. Diddams · Scott A. Diddams
Yb‐fiber‐based, high‐average‐power, high‐repetition‐rate, picosecond source at 2.1 µm Francesco Lenzini · Ben Haylock · J. C. Loredo · J. C. Loredo · Raphael A. Abrahão · Nor A. Zakaria · Sachin Kasture · I. Sagnes · A. Lemaître · Hoang-Phuong Phan · Dzung Viet Dao · P. Senellart · M. P. Almeida · Andrew White · Mirko Lobino · Mirko Lobino
Optically referenced broadband electronic synthesizer with 15 digits of resolution Ilya E. Titkov · Amit Yadav · S. Karpov · A. V. Sakharov · Andrey F. Tsatsulnikov · Thomas J. Slight · Andrei Gorodetsky · Edik U. Rafailov · Edik U. Rafailov
Superior color rendering with a phosphor-converted blue-cyan monolithic light-emitting diode Patrizio Vaiano · Benito Carotenuto · Marco Pisco · Armando Ricciardi · G. Quero · M. Consales · Alessio Crescitelli · E. Esposito · A. Cusano · A. Cusano
Lab-on-Fiber Technology for Biological Sensing Applications Robert Halir · Pavel Cheben · José Manuel Luque-González · Jose Darío Sarmiento-Merenguel · Jens H. Schmid · G. Wanguemert-Perez · Dan-Xia Xu · Shurui Wang · Alejandro Ortega-Moñux · I. Molina-Fernandez · I. Molina-Fernandez
Lab on Fiber Technology for biological sensing applications (Laser Photonics Rev. 10(6)/2016) Wuhong Zhang · Jikang Wang · Fangshu Li · Lixiang Chen · Ebrahim Karimi · Ebrahim Karimi
Ultra‐broadband nanophotonic beamsplitter using an anisotropic sub‐wavelength metamaterial Léo Turquet · Joona-Pekko Kakko · Xiaorun Zang · Liisa Naskali · Lasse Karvonen · Hua Jiang · Teppo Huhtio · Esko I. Kauppinen · Harri Lipsanen · Martti Kauranen · Godofredo Bautista · Godofredo Bautista
Topological phase transitions and Thouless pumping of light in photonic waveguide arrays Muhammad Irfan Abid · Lei Wang · Qi-Dai Chen · Xuewen Wang · Xuewen Wang · Saulius Juodkazis · Saulius Juodkazis · Saulius Juodkazis · Hong-Bo Sun · Hong-Bo Sun
Metamaterial absorber integrated microfluidic terahertz sensors Christof P. Dietrich · Andrea Fiore · Mark G. Thompson · M. Kamp · Sven Höfling · Sven Höfling · Sven Höfling
Sustained photon pulse revivals from inhomogeneously broadened spin ensembles Xue-Qing Liu · Qi-Dai Chen · Kai-Min Guan · Zhuo-Chen Ma · Yan-Hao Yu · Qian-Kun Li · Zhen-Nan Tian · Hong-Bo Sun · Hong-Bo Sun
A localized surface plasmon resonance and light confinement-enhanced near-infrared light photodetector (Laser Photonics Rev. 10(4)/2016) Guangyuan Li · C. Martijn de Sterke · Stefano Palomba · Stefano Palomba
Figure of merit for Kerr nonlinear plasmonic waveguides Wenjing Yue · Song Gao · Sang-Shin Lee · Eun-Soo Kim · Duk-Yong Choi · Duk-Yong Choi
Splitting of magnetic dipole modes in anisotropic TiO2micro-spheres (Laser Photonics Rev. 10(4)/2016) Mikhail A. Kats · Federico Capasso · Federico Capasso
Figure of merit for Kerr nonlinear plasmonic waveguides (Laser Photonics Rev. 10(4)/2016) Leiran Wang · Leiran Wang · Lin Chang · Nicolas Volet · Martin H. P. Pfeiffer · Michael Zervas · Hairun Guo · Tobias J. Kippenberg · John E. Bowers · John E. Bowers
Optical absorbers based on strong interference in ultra‐thin films Motoki Asano · Yuki Takeuchi · Weijian Chen · Şahin Kaya Özdemir · Şahin Kaya Özdemir · Rikizo Ikuta · Nobuyuki Imoto · Lan Yang · Takashi Yamamoto · Takashi Yamamoto
Frequency comb generation in the green using silicon nitride microresonators Hongming Shen · R. Y. Chou · Yuen Yung Hui · Yingbo He · Yuqing Cheng · Huan-Cheng Chang · Limin Tong · Qihuang Gong · Qihuang Gong · Guowei Lu · Guowei Lu · Guowei Lu
Observation of optomechanical coupling in a microbottle resonator Xihua Zou · Xihua Zou · Bing Lu · Wei Pan · Lianshan Yan · Andreas Stöhr · Jianping Yao · Jianping Yao
Directional fluorescence emission from a compact plasmonic-diamond hybrid nanostructure Ang Li · Thomas Van Vaerenbergh · Thomas Van Vaerenbergh · Peter De Heyn · Peter Bienstman · Wim Bogaerts · Wim Bogaerts
Photonics for microwave measurements Xiao Wang · Xiujuan Zhuang · Frank Wackenhut · Yunyun Li · Anlian Pan · Alfred J. Meixner · Alfred J. Meixner
Backscattering in silicon microring resonators: a quantitative analysis Ross Leyman · Andrei Gorodetsky · Natalia Bazieva · Gediminas Molis · Arūnas Krotkus · Edmund Clarke · Edik U. Rafailov · Edik U. Rafailov
Power‐ and polarization dependence of two photon luminescence of single CdSe nanowires with tightly focused cylindrical vector beams of ultrashort laser pulses Cheng Zhang · Carl Pfeiffer · Taehee Jang · Vishva Ray · Maxwell M. Junda · Prakash Uprety · Nikolas J. Podraza · Anthony Grbic · L. Jay Guo · L. Jay Guo
Quantum dot materials for terahertz generation applications Christof P. Dietrich · Andrea Fiore · Mark G. Thompson · M. Kamp · Sven Höfling · Sven Höfling
Breaking Malus law: Highly efficient, broadband, and angular robust asymmetric light transmitting metasurface Jinxiang Li · Yi Xu · Qiao-Feng Dai · Sheng Lan · Shaolong Tie · Shaolong Tie
GaAs integrated quantum photonics Xihua Zou · Bing Lu · Wei Pan · Lianshan Yan · Andreas Stöhr · Jianping Yao · Jianping Yao
Manipulating light–matter interaction in a gold nanorod assembly by plasmonic coupling (Laser Photonics Rev. 10(5)/2016) Mikhail A. Kats · Federico Capasso · Federico Capasso
Photonics for microwave measurements (Laser Photonics Rev. 10(5)/2016) Heng Zhou · Mingle Liao · Shu-Wei Huang · Linjie Zhou · Kun Qiu · Chee Wei Wong · Chee Wei Wong
Optical absorbers based on strong interference in ultra-thin films (Laser Photonics Rev. 10(5)/2016) Xiaoxiao Xue · Xiaoxiao Xue · Pei-Hsun Wang · Yi Xuan · Minghao Qi · Andrew M. Weiner · Andrew M. Weiner
Six‐wave mixing induced by free‐carrier plasma in silicon nanowire waveguides Itai Epstein · Yuval Tsur · Ady Arie · Ady Arie
Surface-plasmon wavefront and spectral shaping by near-field holography Liron Stern · Roy Zektzer · Noa Mazurski · Uriel Levy · Uriel Levy
Plasmonic refraction-induced ultrahigh transparency of highly conducting metallic networks Jonathan J. Wierer · Nelson Tansu · Arthur J. Fischer · Jeffrey Y. Tsao · Jeffrey Y. Tsao
Enhanced light‐vapor interactions and all optical switching in a chip scale micro‐ring resonator coupled with atomic vapor Francesco Cappelli · Giulio Campo · Iacopo Galli · G. Giusfredi · Saverico Bartalini · Davide Mazzotti · P. Cancio · S. Borri · Borislav Hinkov · Jérôme Faist · Paolo De Natale · Paolo De Natale
III-nitride quantum dots for ultra-efficient solid-state lighting Guangyuan Li · Guangyuan Li · C. Martijn de Sterke · C. Martijn de Sterke · Stefano Palomba · Stefano Palomba
Frequency stability characterization of a quantum cascade laser frequency comb Kun Huang · Hong Liu · Guangyuan Si · Qian Wang · Jiao Lin · Jinghua Teng · Jinghua Teng
Circular dichroism induced by Fano resonances in planar chiral oligomers Ben Hopkins · Alexander N. Poddubny · Andrey E. Miroshnichenko · Yuri S. Kivshar · Yuri S. Kivshar

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Laser and Photonics Reviews | 2018
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Shaoyang Wang · Yaohui Liu · Dapeng Zhang · Shih-Chi Chen · Siu Kai Kong · Minglie Hu · Youjia Cao · Hao He · Hao He
All-Optical Phosphorene Phase Modulator with Enhanced Stability Under Ambient Conditions
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