{"id":3018,"date":"2021-03-26T14:26:53","date_gmt":"2021-03-26T18:26:53","guid":{"rendered":"https:\/\/lenr-canr.org\/wordpress\/?page_id=3018"},"modified":"2021-03-26T14:26:54","modified_gmt":"2021-03-26T18:26:54","slug":"this-summary-in-stand-alone-window","status":"publish","type":"page","link":"https:\/\/lenr-canr.org\/wordpress\/?page_id=3018","title":{"rendered":"This summary in stand-alone window"},"content":{"rendered":"\n<h2 class=\"wpdt-c\" id=\"wdt-table-title-6\">Summary<\/h2>\n<div class=\"wpdt-c wdt-skin-light\">\n    \n\n    <div class=\"wpDataTables wpDataTablesFilter wpDataTablesWrapper wdt-skin-light data-t\"\n         data-wpdatatable_id=\"6\">\n        <div id=\"filterBox_table_1\" class=\"wpDataTableFilterBox\">\n                                                                            <div class=\"wpDataTableFilterSection\" id=\"table_1_1_filter_sections\">\n                        <label>First Author:<\/label>\n                        <div 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<th\n                        class=\" wdtheader sort \"\n        style=\"\">Title<\/th>        <th\n                        class=\" wdtheader \"\n        style=\"\">Description<\/th>        <th\n                        class=\" wdtheader sort \"\n        style=\"\">Publisher<\/th>        <th\n                        class=\" wdtheader sort \"\n        style=\"\">Volume<\/th>        <th\n                        class=\" wdtheader \"\n        style=\"\">Link<\/th>        <th\n                        class=\" wdtheader sort \"\n        style=\"\">Date Uploaded<\/th>        <th\n                        class=\" wdtheader sort \"\n        style=\"\">Abstract<\/th>        <th\n                        class=\" wdtheader sort \"\n        style=\"\">Keywords<\/th>        <th\n                        class=\" wdtheader sort \"\n        style=\"\">Search All<\/th>        <th\n                        class=\" wdtheader \"\n        style=\"\">Details<\/th>    <\/tr>\n<\/thead>\n        <!-- \/Table header -->\n\n        <!-- Table body -->\n        \n<tbody>\n            <tr id=\"table_6_row_0\">\n                            <td style=\"\">1<\/td>\n                            <td style=\"\">Storms, E.<\/td>\n                            <td style=\"\">Storms, E.<\/td>\n                            <td style=\"\">2026<\/td>\n                            <td style=\"\">A Comprehensive Understanding of Cold Fusion<\/td>\n                            <td style=\"\">Storms, E., <i>A Comprehensive Understanding of Cold Fusion<\/i>. 2026, LENR-CANR.org.<\/td>\n                            <td style=\"\">LENR-CANR.org<\/td>\n                            <td style=\"\"><\/td>\n                            <td style=\"\"><a href='http:\/\/lenr-canr.org\/acrobat\/StormsEacomprehen.pdf'  target='_blank'><button class=''>OPEN<\/button><\/a><\/td>\n                            <td style=\"\">2026-04-23<\/td>\n                            <td style=\"\">The fusion of the isotopes of hydrogen has now been demonstrated to occur in a wide variety of materials after special treatments. This source of energy has the potential to meet the need for clean energy that is not affected by political conflicts and excessive cost. In addition, the mechanism reveals a new kind of nuclear interaction. The cold fusion mechanism is here explained based on observed behavior with testable predictions. An effective guide is now available to create a useful energy generator using only water as the source of the hydrogen fuel. The model results in a new value of 4.01841 for the mass of 4H, which is proposed to decay with a short half-life to 4He by beta emission after being emitted from the fusion reaction.<\/td>\n                            <td style=\"\"><\/td>\n                            <td style=\"\">Storms, E. 2026 A Comprehensive Understanding of Cold Fusion LENR-CANR.org The fusion of the isotopes of hydrogen has now been demonstrated to occur in a wide variety of materials after special treatments. This source of energy has the potential to meet the need for clean energy that is not affected by political conflicts and excessive cost. In addition, the mechanism reveals a new kind of nuclear interaction. The cold fusion mechanism is here explained based on observed behavior with testable predictions. An effective guide is now available to create a useful energy generator using only water as the source of the hydrogen fuel. The model results in a new value of 4.01841 for the mass of 4H, which is proposed to decay with a short half-life to 4He by beta emission after being emitted from the fusion reaction.  <\/td>\n                            <td style=\"\"><a class='master_detail_column_btn'><button class=''>Details<\/button><\/a><\/td>\n                    <\/tr>\n                <tr id=\"table_6_row_1\">\n                            <td style=\"\">2<\/td>\n                            <td style=\"\">Storms, E.<\/td>\n                            <td style=\"\">Storms, E.<\/td>\n                            <td style=\"\">2026<\/td>\n                            <td style=\"\">A New and Improved Understanding of Cold Fusion Based on the Observed Behavior<\/td>\n                            <td style=\"\">Storms, E., <i>A New and Improved Understanding of Cold Fusion Based on the Observed Behavior.<\/i> J. Condensed Matter Nucl. Sci., 2026. <b>41<\/b>: p. 1-18.<\/td>\n                            <td style=\"\">J. Condensed Matter Nucl. Sci.<\/td>\n                            <td style=\"\">   41<\/td>\n                            <td style=\"\"><a href='http:\/\/lenr-canr.org\/acrobat\/StormsEanewandimpa.pdf'  target='_blank'><button class=''>OPEN<\/button><\/a><\/td>\n                            <td style=\"\">2026-04-23<\/td>\n                            <td style=\"\">Cold fusion requires two essential conditions for it to occur. First, a location in which the Coulomb barrier can be reduced must be created. This unique condition is called the nuclear active environment (NAE). Second, the nuclear fuel, which is any isotope of hydrogen, must diffuse from its usual location in the crystal structure and enter the NAE. Upon arrival in the NAE, the fuel is converted to a nuclear product by a very unusual nuclear process, which involves the electrons within the NAE reducing the Coulomb barrier and carrying away part of the nuclear energy as they are emitted with kinetic energy. Helium is the final nuclear product when deuterium is used. This paper describes how these requirements can be met without violating the rules governing a chemical environment while being consistent with the nuclear requirements. A model describing the process is provided using only the observed behaviors and their implications.<\/td>\n                            <td style=\"\">LENR, cold fusion, energy source, nuclear mechanism, hot fusion<\/td>\n                            <td style=\"\">Storms, E. 2026 A New and Improved Understanding of Cold Fusion Based on the Observed Behavior J. Condensed Matter Nucl. Sci. Cold fusion requires two essential conditions for it to occur. First, a location in which the Coulomb barrier can be reduced must be created. This unique condition is called the nuclear active environment (NAE). Second, the nuclear fuel, which is any isotope of hydrogen, must diffuse from its usual location in the crystal structure and enter the NAE. Upon arrival in the NAE, the fuel is converted to a nuclear product by a very unusual nuclear process, which involves the electrons within the NAE reducing the Coulomb barrier and carrying away part of the nuclear energy as they are emitted with kinetic energy. Helium is the final nuclear product when deuterium is used. This paper describes how these requirements can be met without violating the rules governing a chemical environment while being consistent with the nuclear requirements. A model describing the process is provided using only the observed behaviors and their implications. LENR, cold fusion, energy source, nuclear mechanism, hot fusion <\/td>\n                            <td style=\"\"><a class='master_detail_column_btn'><button class=''>Details<\/button><\/a><\/td>\n                    <\/tr>\n                <tr id=\"table_6_row_2\">\n                            <td style=\"\">3<\/td>\n                            <td style=\"\">Storms, E.<\/td>\n                            <td style=\"\">Storms, E.<\/td>\n                            <td style=\"\">2026<\/td>\n                            <td style=\"\">Cold Fusion Explained at the Operational Level<\/td>\n                            <td style=\"\">Storms, E., <i>Cold Fusion Explained at the Operational Level<\/i>, in <i>IWAHLM-17<\/i>. 2026: Bergamo, Italy.<\/td>\n                            <td style=\"\">IWAHLM-17<\/td>\n                            <td style=\"\"><\/td>\n                            <td style=\"\"><a href='http:\/\/lenr-canr.org\/acrobat\/StormsEcoldfusionk.pdf'  target='_blank'><button class=''>OPEN<\/button><\/a><\/td>\n                            <td style=\"\">2026-02-11<\/td>\n                            <td style=\"\">All phenomena of nature create two separate questions needing an answer. The scientific question asks WHY a process occurs, and the engineering question involves HOW the process works and can be made useful. These two questions are only marginally related. Either question can be correctly answered without knowing the answer to the other. The cold fusion discovery has been handicapped by an overemphasis on the scientific question. Instead, this paper focuses on HOW cold fusion works and HOW it can be made useful. A successful answer would allow the creation of a material having an infinite ratio of created power to applied power (COP).<\/td>\n                            <td style=\"\"><\/td>\n                            <td style=\"\">Storms, E. 2026 Cold Fusion Explained at the Operational Level IWAHLM-17 All phenomena of nature create two separate questions needing an answer. The scientific question asks WHY a process occurs, and the engineering question involves HOW the process works and can be made useful. These two questions are only marginally related. Either question can be correctly answered without knowing the answer to the other. The cold fusion discovery has been handicapped by an overemphasis on the scientific question. Instead, this paper focuses on HOW cold fusion works and HOW it can be made useful. A successful answer would allow the creation of a material having an infinite ratio of created power to applied power (COP).  <\/td>\n                            <td style=\"\"><a class='master_detail_column_btn'><button class=''>Details<\/button><\/a><\/td>\n                    <\/tr>\n                <tr id=\"table_6_row_3\">\n                            <td style=\"\">4<\/td>\n                            <td style=\"\">Messinger, J. F.<\/td>\n                            <td style=\"\">Messinger, J. F., Metzler, F., Price, H.<\/td>\n                            <td style=\"\">2026<\/td>\n                            <td style=\"\">Gatekeeping: a Partial History of Cold Fusion<\/td>\n                            <td style=\"\">Messinger, J.F., F. Metzler, and H. Price, <i>Gatekeeping: a Partial History of Cold Fusion<\/i>, in <i>arXiv.2601.09996<\/i>. 2026.<\/td>\n                            <td style=\"\">arXiv.2601.09996<\/td>\n                            <td style=\"\"><\/td>\n                            <td style=\"\"><a href='http:\/\/lenr-canr.org\/acrobat\/MessingerJgatekeepin.pdf'  target='_blank'><button class=''>OPEN<\/button><\/a><\/td>\n                            <td style=\"\">2026-01-16<\/td>\n                            <td style=\"\">https:\/\/arxiv.org\/abs\/2601.09996v1<\/p><br>Submission for a Special Issue on Gatekeeping in Science<\/p><br>One of the most public episodes of gatekeeping in modern science was the case of so-called ?cold fusion?. At a news conference in 1989 the electrochemists Martin Fleischmann and Stanley Pons announced that they had found evidence of nuclear fusion in palladium electrodes loaded with deuterium. There was worldwide interest. Many groups sought to reproduce the results, most unsuccessfully. Within months, the prevailing view became strongly negative. The claims of Fleischmann and Pons came to be regarded as disreputable, as well as false. As the Caltech physicist David Goldstein put it, cold fusion became ?a pariah fi eld, cast out by the scientifi c establishment? (Goldstein 1994). The case would already be interesting for students of gatekeeping if the story had ended at that point. Even more interestingly, however, the fi eld survived and persisted. It has been enjoying a modest renaissance, with recent government funding both in the US and the EU. This piece off ers an opinionated introduction to cold fusion as a case study of scientifi c gatekeeping, discussing both its early and recent history.<\/td>\n                            <td style=\"\">Gatekeeping, cold fusion, low energy nuclear reactions (LENR), condensed matter nuclear science, inductive risk, replication<\/td>\n                            <td style=\"\">Messinger, J. F., Metzler, F., Price, H. 2026 Gatekeeping: a Partial History of Cold Fusion arXiv.2601.09996 https:\/\/arxiv.org\/abs\/2601.09996v1<\/p><br>Submission for a Special Issue on Gatekeeping in Science<\/p><br>One of the most public episodes of gatekeeping in modern science was the case of so-called ?cold fusion?. At a news conference in 1989 the electrochemists Martin Fleischmann and Stanley Pons announced that they had found evidence of nuclear fusion in palladium electrodes loaded with deuterium. There was worldwide interest. Many groups sought to reproduce the results, most unsuccessfully. Within months, the prevailing view became strongly negative. The claims of Fleischmann and Pons came to be regarded as disreputable, as well as false. As the Caltech physicist David Goldstein put it, cold fusion became ?a pariah fi eld, cast out by the scientifi c establishment? (Goldstein 1994). The case would already be interesting for students of gatekeeping if the story had ended at that point. Even more interestingly, however, the fi eld survived and persisted. It has been enjoying a modest renaissance, with recent government funding both in the US and the EU. This piece off ers an opinionated introduction to cold fusion as a case study of scientifi c gatekeeping, discussing both its early and recent history. Gatekeeping, cold fusion, low energy nuclear reactions (LENR), condensed matter nuclear science, inductive risk, replication <\/td>\n                            <td style=\"\"><a class='master_detail_column_btn'><button class=''>Details<\/button><\/a><\/td>\n                    <\/tr>\n                <tr id=\"table_6_row_4\">\n                            <td style=\"\">5<\/td>\n                            <td style=\"\">Zhou, K.<\/td>\n                            <td style=\"\">Zhou, K., Zhuang, Q.<\/td>\n                            <td style=\"\">2025<\/td>\n                            <td style=\"\">On the Role and Mechanism of Anomalous Heat Generation From Low Energy Nuclear Reaction (LENR) During Earthquakes<\/td>\n                            <td style=\"\">Zhou, K. and Q. Zhuang, <i>On the Role and Mechanism of Anomalous Heat Generation From Low Energy Nuclear Reaction (LENR) During Earthquakes.<\/i> J. Condensed Matter Nucl. Sci., 2025. <b>39<\/b>: p. 286-294.<\/td>\n                            <td style=\"\">J. Condensed Matter Nucl. Sci.<\/td>\n                            <td style=\"\">   39<\/td>\n                            <td style=\"\"><a href='http:\/\/lenr-canr.org\/acrobat\/BiberianJPjcondensedzl.pdf#page=292'  target='_blank'><button class=''>OPEN<\/button><\/a><\/td>\n                            <td style=\"\">2025-03-29<\/td>\n                            <td style=\"\">After going over the empirical study made by seismologists Jiwen Teng, Zuoxun Zeng, Jianguo Du, and Earth scientists Dewei Li, Guanghe Liang certain characteristics other than stress building up and rock slipping, of major earthquakes can be seen. And a reasonable heat producing mechanism is required. Based on pioneering research conducted by Song-Sheng Jiang, Wei-Yin Chen, Tadahiko Mizuno, Edmund Storms and other researchers, we believe that source cavities of these earthquakes may indicate a few possible scenarios initiating energy surge or energy increase, while depicting profiles of active environment that sustains thermal energy accumulation confined in a source cavity. In particular, the work of S.-S. Jiang, E. Storms and F. J. Mayer gave rise to the postulate that deep in Earth, nuclear reaction may take place due to the formation of a nuclear active environment (NAE) resulting in anomalous heat generation. Conditions for such reactions may foster similar processes to occur at shallower depth in source cavities of earthquakes: the deep fractures can serve as conduits for the transportation of species from deep Earth. An enclosed source cavity receives heat-producing substances, forming nuclear active sites generating excess heat on the fluid-solid interface within the media, leading to temperature and pressure accumulation, and subsequent melting of surrounding rocks. Accordingly, static electricity replenished from the atmosphere and formation of electron-proton composite (tresinos) and electron clusters thus formed within the source zone in the crust, may become contributors to the initiation of low energy nuclear reaction (LENR). Elements of H(D) may play a role in prolonged thermal energy generation responsible for energy surge in source zone, and electromagnetic\/thermal energy anomaly close by an epicenter. Active lava flow on the Moon 2 billion years ago may indicate a similar energy generation mechanism. Finally, based on the field study in Fujian Province, southeast China, a twin relation between seismic events and geothermal energy release was proposed: Geothermal energy resource may bear great potential in understanding, diagnosing earthquake occurrence and even tempering hazardous seismic events by its conversion into a new paradigm of renewable energy.<\/td>\n                            <td style=\"\">Major earthquake, anomalous heat generation, heat producing mechanism, LENR<\/td>\n                            <td style=\"\">Zhou, K., Zhuang, Q. 2025 On the Role and Mechanism of Anomalous Heat Generation From Low Energy Nuclear Reaction (LENR) During Earthquakes J. Condensed Matter Nucl. Sci. After going over the empirical study made by seismologists Jiwen Teng, Zuoxun Zeng, Jianguo Du, and Earth scientists Dewei Li, Guanghe Liang certain characteristics other than stress building up and rock slipping, of major earthquakes can be seen. And a reasonable heat producing mechanism is required. Based on pioneering research conducted by Song-Sheng Jiang, Wei-Yin Chen, Tadahiko Mizuno, Edmund Storms and other researchers, we believe that source cavities of these earthquakes may indicate a few possible scenarios initiating energy surge or energy increase, while depicting profiles of active environment that sustains thermal energy accumulation confined in a source cavity. In particular, the work of S.-S. Jiang, E. Storms and F. J. Mayer gave rise to the postulate that deep in Earth, nuclear reaction may take place due to the formation of a nuclear active environment (NAE) resulting in anomalous heat generation. Conditions for such reactions may foster similar processes to occur at shallower depth in source cavities of earthquakes: the deep fractures can serve as conduits for the transportation of species from deep Earth. An enclosed source cavity receives heat-producing substances, forming nuclear active sites generating excess heat on the fluid-solid interface within the media, leading to temperature and pressure accumulation, and subsequent melting of surrounding rocks. Accordingly, static electricity replenished from the atmosphere and formation of electron-proton composite (tresinos) and electron clusters thus formed within the source zone in the crust, may become contributors to the initiation of low energy nuclear reaction (LENR). Elements of H(D) may play a role in prolonged thermal energy generation responsible for energy surge in source zone, and electromagnetic\/thermal energy anomaly close by an epicenter. Active lava flow on the Moon 2 billion years ago may indicate a similar energy generation mechanism. Finally, based on the field study in Fujian Province, southeast China, a twin relation between seismic events and geothermal energy release was proposed: Geothermal energy resource may bear great potential in understanding, diagnosing earthquake occurrence and even tempering hazardous seismic events by its conversion into a new paradigm of renewable energy. Major earthquake, anomalous heat generation, heat producing mechanism, LENR <\/td>\n                            <td style=\"\"><a class='master_detail_column_btn'><button class=''>Details<\/button><\/a><\/td>\n                    <\/tr>\n                <tr id=\"table_6_row_5\">\n                            <td style=\"\">6<\/td>\n                            <td style=\"\">Zhao, H.<\/td>\n                            <td style=\"\">Zhao, H., Liang, Y-X., Zhang, W-S., Liu, D-H., Ma, X-H.<\/td>\n                            <td style=\"\">2025<\/td>\n                            <td style=\"\">Refinement Process and Mechanism of Nano Cu-Ni-Zr Alloy by High-Energy Ball Milling<\/td>\n                            <td style=\"\">Zhao, H., et al., <i>Refinement Process and Mechanism of Nano Cu-Ni-Zr Alloy by High-Energy Ball Milling.<\/i> J. Condensed Matter Nucl. Sci., 2025. <b>39<\/b>: p. 130-139.<\/td>\n                            <td style=\"\">J. Condensed Matter Nucl. Sci.<\/td>\n                            <td style=\"\">   39<\/td>\n                            <td style=\"\"><a href='http:\/\/lenr-canr.org\/acrobat\/BiberianJPjcondensedzl.pdf#page=136'  target='_blank'><button class=''>OPEN<\/button><\/a><\/td>\n                            <td style=\"\">2025-03-29<\/td>\n                            <td style=\"\">Nano Cu-Ni-Zr alloys were synthesized using a mixture of Cu, Ni and ZrO2 powders of 350 meshes through high-energy ball milling for 10 to 50 hours. Analysis via scanning electron microscopy (SEM) and X-ray diffraction (XRD) suggests that the particle nanocrystallization process during ball milling can be divided into four stages: welding, squeezing, fracturing, and dynamic equilibrium. Examination of the particle size distribution and element composition of the Cu-Ni-Zr alloy after 50 hours of milling reveals the formation of a nano-polycrystalline structure with an average grain size of 28 nm. Additionally, this process transforms the initial metal mixture into various alloys such as Ni-Zr, Cu-Ni, as well as compounds like CuO and ZrO2. Calorimetry using this alloy in low-energy-nuclear-reaction experiments exhibited excess heat.<\/td>\n                            <td style=\"\">High-energy ball milling, Nanocrystal, Cu-Ni-Zr Alloy, Microstructure, Refinement mechanism<\/td>\n                            <td style=\"\">Zhao, H., Liang, Y-X., Zhang, W-S., Liu, D-H., Ma, X-H. 2025 Refinement Process and Mechanism of Nano Cu-Ni-Zr Alloy by High-Energy Ball Milling J. Condensed Matter Nucl. Sci. Nano Cu-Ni-Zr alloys were synthesized using a mixture of Cu, Ni and ZrO2 powders of 350 meshes through high-energy ball milling for 10 to 50 hours. Analysis via scanning electron microscopy (SEM) and X-ray diffraction (XRD) suggests that the particle nanocrystallization process during ball milling can be divided into four stages: welding, squeezing, fracturing, and dynamic equilibrium. Examination of the particle size distribution and element composition of the Cu-Ni-Zr alloy after 50 hours of milling reveals the formation of a nano-polycrystalline structure with an average grain size of 28 nm. Additionally, this process transforms the initial metal mixture into various alloys such as Ni-Zr, Cu-Ni, as well as compounds like CuO and ZrO2. Calorimetry using this alloy in low-energy-nuclear-reaction experiments exhibited excess heat. High-energy ball milling, Nanocrystal, Cu-Ni-Zr Alloy, Microstructure, Refinement mechanism <\/td>\n                            <td style=\"\"><a class='master_detail_column_btn'><button class=''>Details<\/button><\/a><\/td>\n                    <\/tr>\n                <tr id=\"table_6_row_6\">\n                            <td style=\"\">7<\/td>\n                            <td style=\"\">Zhang, W-S.<\/td>\n                            <td style=\"\">Zhang, W-S.<\/td>\n                            <td style=\"\">2025<\/td>\n                            <td style=\"\">Summary of 26th International Conference on Condensed Matter Nuclear Science (ICCF-26) (in Chinese)<\/td>\n                            <td style=\"\">Zhang, W.-S., <i>Summary of 26th International Conference on Condensed Matter Nuclear Science (ICCF-26) (in Chinese).<\/i> Journal of Molecular Catalysis (China), 2025. <b>39<\/b>(6): p. 585-592.<\/td>\n                            <td style=\"\">Journal of Molecular Catalysis (China)<\/td>\n                            <td style=\"\">   39<\/td>\n                            <td style=\"\"><a href='http:\/\/lenr-canr.org\/acrobat\/ZhangWSsummaryoftb.pdf'  target='_blank'><button class=''>OPEN<\/button><\/a><\/td>\n                            <td style=\"\">2026-01-07<\/td>\n                            <td style=\"\">(In Chinese) The 26th International Conference on Condensed Matter Nuclear Science (ICCF-26) was held from May 26 to 30, 2025, Morioka, Japan. 141 participants attended this meeting. 81 abstracts were accepted. The main progresses reported by this conference are as follows: (1) The infrared imaging of the Cu\/Ni multilayer film by the Iwamura group in Japan directly proved that the excess heat occurs in the micron-scale area, and the local temperature exceeds the melting point of nickel. (2) The results of the increase in the D impurity in the H-containing system show that the 3He detected in this type of system is likely to come from the H + D fusion. Nonradiative capture reactions that are difficult to occur in traditional nuclear physics are very likely to occur. (3) The 511 keV positron-electron annihilation characteristic ? rays above the background in Pd-D and Zr-D were measured in the underground laboratory, proving that deuterium diffusion alone can cause nuclear reactions. (4) 12 companies have reported kW-level or even 10 kW-level heat-generating devices with 2 to 50 times the input power, and the commercialization of condensed matter nuclear science has begun to show the dawn.<\/td>\n                            <td style=\"\">condensed matter nuclear science, low energy nuclear reaction, excess heat, nuclear transmutation, nonradiative capture reactions<\/td>\n                            <td style=\"\">Zhang, W-S. 2025 Summary of 26th International Conference on Condensed Matter Nuclear Science (ICCF-26) (in Chinese) Journal of Molecular Catalysis (China) (In Chinese) The 26th International Conference on Condensed Matter Nuclear Science (ICCF-26) was held from May 26 to 30, 2025, Morioka, Japan. 141 participants attended this meeting. 81 abstracts were accepted. The main progresses reported by this conference are as follows: (1) The infrared imaging of the Cu\/Ni multilayer film by the Iwamura group in Japan directly proved that the excess heat occurs in the micron-scale area, and the local temperature exceeds the melting point of nickel. (2) The results of the increase in the D impurity in the H-containing system show that the 3He detected in this type of system is likely to come from the H + D fusion. Nonradiative capture reactions that are difficult to occur in traditional nuclear physics are very likely to occur. (3) The 511 keV positron-electron annihilation characteristic ? rays above the background in Pd-D and Zr-D were measured in the underground laboratory, proving that deuterium diffusion alone can cause nuclear reactions. (4) 12 companies have reported kW-level or even 10 kW-level heat-generating devices with 2 to 50 times the input power, and the commercialization of condensed matter nuclear science has begun to show the dawn. condensed matter nuclear science, low energy nuclear reaction, excess heat, nuclear transmutation, nonradiative capture reactions <\/td>\n                            <td style=\"\"><a class='master_detail_column_btn'><button class=''>Details<\/button><\/a><\/td>\n                    <\/tr>\n                <tr id=\"table_6_row_7\">\n                            <td style=\"\">8<\/td>\n                            <td style=\"\">Zhang, H.<\/td>\n                            <td style=\"\">Zhang, H., Chen, S.<\/td>\n                            <td style=\"\">2025<\/td>\n                            <td style=\"\">Experimental Results of Lattice Energy Converter LEC<\/td>\n                            <td style=\"\">Zhang, H. and S. Chen, <i>Experimental Results of Lattice Energy Converter LEC.<\/i> J. Condensed Matter Nucl. Sci., 2025. <b>39<\/b>: p. 241-248.<\/td>\n                            <td style=\"\">J. Condensed Matter Nucl. Sci.<\/td>\n                            <td style=\"\">   39<\/td>\n                            <td style=\"\"><a href='http:\/\/lenr-canr.org\/acrobat\/BiberianJPjcondensedzl.pdf#page=247'  target='_blank'><button class=''>OPEN<\/button><\/a><\/td>\n                            <td style=\"\">2025-03-29<\/td>\n                            <td style=\"\">The lattice energy converter (LEC) phenomenon was discovered by American scientists Frank Gordon and Harper J. Whitehouse. LEC can be generally described as the following: a pair of electrode plates with one treated with co-deposition on surface are placed close to each other. The spacing between the two plates is between 0.5 ? 1 mm, with hydrogen, deuterium or air filling up the space between them. As a result, a voltage of several hundred millivolts can be measured [Ref. 1]. Alan Smith, a British scientist activated the surface by the electrolytic method and successfully reproduced the LEC experiment [Ref. 4]. We have recently be doing LEC experiments intensively. Some preliminary experimental results were obtained, and LEC phenomenon was observed. For clarity, let me introduce the process of our experiments. This was a preliminary experiment. Iron plating, nickel plating, copper plating and electrolytic treatment were used to activate the metal surface and observe whether LEC voltage was generated. The experimental setting was a little bit rough, and hydrogen leakage from the valve might occasionally occurred.<\/td>\n                            <td style=\"\">LEC, co-deposition, voltage, hydrogen, air<\/td>\n                            <td style=\"\">Zhang, H., Chen, S. 2025 Experimental Results of Lattice Energy Converter LEC J. Condensed Matter Nucl. Sci. The lattice energy converter (LEC) phenomenon was discovered by American scientists Frank Gordon and Harper J. Whitehouse. LEC can be generally described as the following: a pair of electrode plates with one treated with co-deposition on surface are placed close to each other. The spacing between the two plates is between 0.5 ? 1 mm, with hydrogen, deuterium or air filling up the space between them. As a result, a voltage of several hundred millivolts can be measured [Ref. 1]. Alan Smith, a British scientist activated the surface by the electrolytic method and successfully reproduced the LEC experiment [Ref. 4]. We have recently be doing LEC experiments intensively. Some preliminary experimental results were obtained, and LEC phenomenon was observed. For clarity, let me introduce the process of our experiments. This was a preliminary experiment. Iron plating, nickel plating, copper plating and electrolytic treatment were used to activate the metal surface and observe whether LEC voltage was generated. The experimental setting was a little bit rough, and hydrogen leakage from the valve might occasionally occurred. LEC, co-deposition, voltage, hydrogen, air <\/td>\n                            <td style=\"\"><a class='master_detail_column_btn'><button class=''>Details<\/button><\/a><\/td>\n                    <\/tr>\n                <tr id=\"table_6_row_8\">\n                            <td style=\"\">9<\/td>\n                            <td style=\"\">Vysotskii, V. I.<\/td>\n                            <td style=\"\">Vysotskii, V. I., Vysotskyy, M. V.<\/td>\n                            <td style=\"\">2025<\/td>\n                            <td style=\"\">Current Status of the Coherent Correlated States for Explanation of LENR<\/td>\n                            <td style=\"\">Vysotskii, V.I. and M.V. Vysotskyy, <i>Current Status of the Coherent Correlated States for Explanation of LENR.<\/i> J. Condensed Matter Nucl. Sci., 2025. <b>39<\/b>: p. 165-184.<\/td>\n                            <td style=\"\">J. Condensed Matter Nucl. Sci.<\/td>\n                            <td style=\"\">   39<\/td>\n                            <td style=\"\"><a href='http:\/\/lenr-canr.org\/acrobat\/BiberianJPjcondensedzl.pdf#page=171'  target='_blank'><button class=''>OPEN<\/button><\/a><\/td>\n                            <td style=\"\">2025-03-29<\/td>\n                            <td style=\"\">The study addresses primary issues and paradoxes observed in successful experiments on Low Energy Nuclear Reactions (LENR), including abnormally high probability, significant suppression or absence of radioactive daughter isotopes and accompanying gamma radiation, as well as the stringent selection of specific nuclear reactions. These phenomena cannot be elucidated within the framework of conventional nuclear physics concepts. An analysis of diverse experiments conducted in various material environments and systems such as solids, gases, low-temperature plasma, beams of low-energy particles, biological systems, and astrophysical objects has been performed. The investigation demonstrates that these LENR paradoxes find comprehensive explanations when employing the LENR theory rooted in coherent correlated states of interacting particles.<\/td>\n                            <td style=\"\">LENR anomalies, Coherent correlated states<\/td>\n                            <td style=\"\">Vysotskii, V. I., Vysotskyy, M. V. 2025 Current Status of the Coherent Correlated States for Explanation of LENR J. Condensed Matter Nucl. Sci. The study addresses primary issues and paradoxes observed in successful experiments on Low Energy Nuclear Reactions (LENR), including abnormally high probability, significant suppression or absence of radioactive daughter isotopes and accompanying gamma radiation, as well as the stringent selection of specific nuclear reactions. These phenomena cannot be elucidated within the framework of conventional nuclear physics concepts. An analysis of diverse experiments conducted in various material environments and systems such as solids, gases, low-temperature plasma, beams of low-energy particles, biological systems, and astrophysical objects has been performed. The investigation demonstrates that these LENR paradoxes find comprehensive explanations when employing the LENR theory rooted in coherent correlated states of interacting particles. LENR anomalies, Coherent correlated states <\/td>\n                            <td style=\"\"><a class='master_detail_column_btn'><button class=''>Details<\/button><\/a><\/td>\n                    <\/tr>\n                <tr id=\"table_6_row_9\">\n                            <td style=\"\">10<\/td>\n                            <td style=\"\">Vysotskii, V. I.<\/td>\n                            <td style=\"\">Vysotskii, V. I., Vysotskii, M., Bartalucci, S.<\/td>\n                            <td style=\"\">2025<\/td>\n                            <td style=\"\">The Use of Graphene for Controlled LENR in Thin Conductive Targets via Optimized Low-Voltage Corona Discharge<\/td>\n                            <td style=\"\">Vysotskii, V.I., M. Vysotskii, and S. Bartalucci, <i>The Use of Graphene for Controlled LENR in Thin Conductive Targets via Optimized Low-Voltage Corona Discharge.<\/i> J. Condensed Matter Nucl. Sci., 2025. <b>40<\/b>: p. 417-436.<\/td>\n                            <td style=\"\">J. Condensed Matter Nucl. Sci.<\/td>\n                            <td style=\"\">   40<\/td>\n                            <td style=\"\"><a href='http:\/\/lenr-canr.org\/acrobat\/BiberianJPjcondensedzm.pdf#page=45'  target='_blank'><button class=''>OPEN<\/button><\/a><\/td>\n                            <td style=\"\">2025-11-10<\/td>\n                            <td style=\"\">The problem of optimizing nuclear reactions at low energy of moving particle based on accelerator nuclear fusion is considered. It is shown that the optimization process may be linked to the formation of coherent correlated states of moving particles and accompanying fluctuations of transverse energy (30?100 keV). These phenomena occur when particles traverse a crystalline graphene channel (graphene nanotube) with an optimal energy of longitudinal motion around 500 eV. Furthermore, the study establishes that the most efficient method for implementing such systems is the use of a negative corona discharge in hydrogen or deuterium gas near the surface of conductive graphene nanotubes, in the presence of lithium or other fusion-optimal isotopes inside these nanotubes.<\/td>\n                            <td style=\"\">Graphene nanotubes, Coherent correlated state, Low energy nuclear reactions, Corona discharge, Nuclear fusion<\/td>\n                            <td style=\"\">Vysotskii, V. I., Vysotskii, M., Bartalucci, S. 2025 The Use of Graphene for Controlled LENR in Thin Conductive Targets via Optimized Low-Voltage Corona Discharge J. Condensed Matter Nucl. Sci. The problem of optimizing nuclear reactions at low energy of moving particle based on accelerator nuclear fusion is considered. It is shown that the optimization process may be linked to the formation of coherent correlated states of moving particles and accompanying fluctuations of transverse energy (30?100 keV). These phenomena occur when particles traverse a crystalline graphene channel (graphene nanotube) with an optimal energy of longitudinal motion around 500 eV. Furthermore, the study establishes that the most efficient method for implementing such systems is the use of a negative corona discharge in hydrogen or deuterium gas near the surface of conductive graphene nanotubes, in the presence of lithium or other fusion-optimal isotopes inside these nanotubes. Graphene nanotubes, Coherent correlated state, Low energy nuclear reactions, Corona discharge, Nuclear fusion <\/td>\n                            <td style=\"\"><a class='master_detail_column_btn'><button class=''>Details<\/button><\/a><\/td>\n                    <\/tr>\n    <\/tbody>        <!-- \/Table body -->\n\n        <!-- Table footer -->\n        \n        <!-- \/Table footer -->\n\n    <\/table>\n\n\n<div id=\"table_1_md_dialog\" style=\"display: none\">\n\n    <!-- .wdt-details-dialog-fields-block -->\n    <div class=\"row wdt-details-dialog-fields-block\">\n                    <!-- .form-group -->\n            <div\n                                    class=\"form-group col-xs-12\">\n                \n                <p  class=\"col-sm-3 table_1_Recnum\">\n                    Recnum:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_Recnum_detials\"\n                             data-key=\"Recnum\"\n                             data-column_type=\"int\"\n                             data-column_header=\"Recnum\"\n                             data-input_type=\"text\"\n                             style=\"\"\n                             class=\"detailColumn column-recnum numdata integer \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    style=\"display: none\"\n                                    \n                <p  class=\"col-sm-3 table_1_Author\">\n                    First Author:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_Author_detials\"\n                             data-key=\"Author\"\n                             data-column_type=\"string\"\n                             data-column_header=\"First Author\"\n                             data-input_type=\"none\"\n                             style=\"\"\n                             class=\"detailColumn column-author \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    class=\"form-group col-xs-12\">\n                \n                <p  class=\"col-sm-3 table_1_AllAuthors\">\n                    All Authors:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_AllAuthors_detials\"\n  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                          data-column_type=\"string\"\n                             data-column_header=\"Title\"\n                             data-input_type=\"text\"\n                             style=\"\"\n                             class=\"detailColumn column-title \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    style=\"display: none\"\n                                    \n                <p  class=\"col-sm-3 table_1_Description\">\n                    Description:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_Description_detials\"\n                             data-key=\"Description\"\n                             data-column_type=\"string\"\n                             data-column_header=\"Description\"\n                             data-input_type=\"none\"\n                             style=\"\"\n                             class=\"detailColumn column-description \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    class=\"form-group col-xs-12\">\n                \n                <p  class=\"col-sm-3 table_1_Publisher\">\n                    Publisher:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_Publisher_detials\"\n                             data-key=\"Publisher\"\n                             data-column_type=\"string\"\n                             data-column_header=\"Publisher\"\n                             data-input_type=\"none\"\n                             style=\"\"\n                             class=\"detailColumn column-publisher \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    class=\"form-group col-xs-12\">\n                \n                <p  class=\"col-sm-3 table_1_Volume\">\n                    Volume:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_Volume_detials\"\n                             data-key=\"Volume\"\n                             data-column_type=\"string\"\n                             data-column_header=\"Volume\"\n                             data-input_type=\"none\"\n                             style=\"\"\n                             class=\"detailColumn column-volume \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    class=\"form-group col-xs-12\">\n                \n                <p  class=\"col-sm-3 table_1_Link\">\n                    Link:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_Link_detials\"\n                             data-key=\"Link\"\n                             data-column_type=\"link\"\n                             data-column_header=\"Link\"\n                             data-input_type=\"none\"\n                             style=\"\"\n                             class=\"detailColumn column-link \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    class=\"form-group col-xs-12\">\n                \n                <p  class=\"col-sm-3 table_1_DateUploaded\">\n                    Date Uploaded:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_DateUploaded_detials\"\n                             data-key=\"DateUploaded\"\n                             data-column_type=\"string\"\n                             data-column_header=\"Date Uploaded\"\n                             data-input_type=\"text\"\n                             style=\"\"\n                             class=\"detailColumn column-dateuploaded \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    class=\"form-group col-xs-12\">\n                \n                <p  class=\"col-sm-3 table_1_Abstract\">\n                    Abstract:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_Abstract_detials\"\n                             data-key=\"Abstract\"\n                             data-column_type=\"string\"\n                             data-column_header=\"Abstract\"\n                             data-input_type=\"text\"\n                             style=\"\"\n                             class=\"detailColumn column-abstract \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    class=\"form-group col-xs-12\">\n                \n                <p  class=\"col-sm-3 table_1_Keywords\">\n                    Keywords:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_Keywords_detials\"\n                             data-key=\"Keywords\"\n                             data-column_type=\"string\"\n                             data-column_header=\"Keywords\"\n                             data-input_type=\"text\"\n                             style=\"\"\n                             class=\"detailColumn column-keywords \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    style=\"display: none\"\n                                    \n                <p  class=\"col-sm-3 table_1_SearchAll\">\n                    Search All:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_SearchAll_detials\"\n                             data-key=\"SearchAll\"\n                             data-column_type=\"string\"\n                             data-column_header=\"Search All\"\n                             data-input_type=\"none\"\n                             style=\"\"\n                             class=\"detailColumn column-searchall \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <!-- .form-group -->\n            <div\n                                    style=\"display: none\"\n                                    \n                <p  class=\"col-sm-3 table_1_masterdetail\">\n                    Details:                <\/p>\n                <!-- .col-sm-9 -->\n                <div class=\"col-sm-9\">\n                    <div class=\"fg-line\">\n                        <div id=\"table_1_masterdetail_detials\"\n                             data-key=\"masterdetail\"\n                             data-column_type=\"masterdetail\"\n                             data-column_header=\"Details\"\n                             data-input_type=\"none\"\n                             style=\"\"\n                             class=\"detailColumn column-masterdetail \"\n                        ><\/div>\n                    <\/div>\n                <\/div>\n                <!-- .col-sm-9 -->\n            <\/div>\n            <!--\/ .form-group -->\n                    <\/div>\n    <!--\/ .wdt-details-dialog-fields-block -->\n\n<\/div>\n<\/div><style>\ntable.wpDataTable { table-layout: fixed !important; }\ntable.wpDataTable td, table.wpDataTable th { white-space: normal !important; }\ntable.wpDataTable td.numdata { text-align: right !important; }\n<\/style>\n<style>\n<\/style>\n<style>\n            \/* th background color *\/\n    .wpdt-c.wpDataTablesWrapper table.wpdtSimpleTable.bt[data-has-header='1'] td.wpdt-header-classes,\n    .wpdt-c.wpDataTablesWrapper table#wpdtSimpleTable-6 thead th,\n    .wpdt-c .wpDataTablesWrapper table.wpDataTable.wpDataTableID-6 > thead > tr > th,\n    .wpdt-c .wpDataTablesWrapper table.wpDataTable.wpDataTableID-6 thead th,\n    .wpdt-c .wpDataTablesWrapper table.wpDataTable.wpDataTableID-6 thead th.sorting {\n        background-color: #03A9F4 !important;\n        background-image: none !important;\n    }\n                        \n                                        \n                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