Cold Fusion(冷聚变)研究综述
Cold Fusion 冷聚变 - The most frequent intraoperative complications are surgery longer than expected, bone growth over the implant, rounded screw head core, cold fusion, difficulty in finding the implant and impossibility to remove part of the implant. [1] Our results show that an ultrasonic chord-type transducer approach can effectively resolve flawless samples versus those with coarse contaminants or cold fusions and that an ML approach can be used to effectively assess these ultrasonic signals. [2] Cold fusion is not possible in atmospheric conditions but it is possible underground. [3] Background: Isotopes of Z = 107 118 have been synthesized using cold fusion at GSI, Darmstadt, and hot fusion reactions at JINR, Dubna. [4] The most frequent intraoperative complications are surgery longer than expected, bone growth over the implant, rounded screw head core, cold fusion, difficulty in finding the implant and impossibility to remove part of the implant. [5] The chapter discusses more recent examples of this phenomenon in some detail from both the physical sciences (cold fusion) and their sociobehavioral counterparts (the Daryl Bem psi episode). [6] Controversy in chemistry: how do you prove a negative? – The cases of Phlogiston and Cold Fusion. [7] , Shallow Fusion and Cold Fusion, in both out-of-domain and in-domain scenarios. [8] Scientists at Google and several research institutes in North America have reopened what they call the "cold case" of cold fusion. [9] cold fusion, card counting in Blackjack,. [10] The 1989 claim of ‘cold fusion’ was publicly heralded as the future of clean energy generation. [11] Pons and Fleischmann released only the sketchiest details of their experimental procedure and results for what became known as “cold fusion,” and even these details seemed to change as the claims were probed and challenged. [12]最常见的术中并发症是手术时间长于预期、种植体上的骨生长、圆形螺钉头芯、冷融合、难以找到种植体以及无法移除部分种植体。 [1] 我们的结果表明,超声弦型换能器方法可以有效地分辨无瑕疵的样品与那些具有粗污染物或冷熔合的样品,并且可以使用 ML 方法来有效地评估这些超声信号。 [2] 冷聚变在大气条件下是不可能的,但在地下是可能的。 [3] 背景:Z = 107 118 的同位素已在达姆施塔特 GSI 使用冷聚变合成,在杜布纳 JINR 使用热聚变反应合成。 [4] 最常见的术中并发症是手术时间长于预期、种植体上的骨生长、圆形螺钉头芯、冷融合、难以找到种植体以及无法移除部分种植体。 [5] 本章详细讨论了来自物理科学(冷聚变)及其社会行为对应物(Daryl Bem psi 事件)的这种现象的最新例子。 [6] 化学争议:你如何证明是否定的? – 燃素和冷聚变的案例。 [7] ,浅融合和冷融合,在域外和域内场景中。 [8] 谷歌和北美几家研究机构的科学家们重新开启了他们所谓的冷聚变“冷案例”。 [9] 冷聚变,二十一点中的算牌,。 [10] 1989 年“冷聚变”的主张被公开宣称为清洁能源发电的未来。 [11] Pons 和 Fleischmann 只公布了他们实验过程的最粗略的细节以及所谓的“冷聚变”结果,即使这些细节似乎也随着声明的探索和挑战而改变。 [12]
cold fusion reaction
The isotopes were successfully produced using cold fusion reactions. [1] The energy dependence of P_{CN} indicates that cold fusion reactions (involving ^{208}Pb) are not driven by a diffusion process. [2]使用冷聚变反应成功地产生了同位素。 [1] P_{CN} 的能量依赖性表明冷聚变反应(涉及 ^{208}Pb)不是由扩散过程驱动的。 [2]
cold fusion phenomenon 冷聚变现象
Since the discovery of nuclear reactions in PdDx alloys at around room temperature in 1989, there have been accumulated very many experimental data sets showing existence of nuclear reactions in solid materials composed of transition metals and occluded hydrogen isotopes (let us call them the CF materials, for short) resulting in various nuclear products such as neutrons, tritium, transmuted nuclei, and others accompanied with large excess energies at relatively low temperatures up to 1000°C (let us call these whole events the cold fusion phenomenon (CFP), for short). [1] The research on cold fusion phenomenon has been in the past 30 years. [2]自 1989 年发现 PdDx 合金在室温附近发生核反应以来,已经积累了非常多的实验数据集,表明在由过渡金属和吸留氢同位素组成的固体材料中存在核反应(我们称它们为 CF 材料,简而言之)导致各种核产物,如中子、氚、嬗变核等,在相对较低的温度高达 1000°C 时伴随着大量过剩能量(让我们将这些整个事件简称为冷聚变现象 (CFP) )。 [1] 冷聚变现象的研究已有30年的历史。 [2]