Информационный бюллетень «Статьи» № 27 03.07.2023

С 138 - Геометрия. Риманова геометрия. Геометрия Лобачевского
1. Lopatka, A. The Behavior of Thin Curved Sheets is Ironed Out / A.Lopatka // Physics Today. – 2022. – Vol.75, No.11. – P.19-20. - Bibliogr.:4.
https://doi.org/10.1063/PT.3.5117

С 3 - Физика

2. Feder, T. Philanthropy Plays a Growing Role in Funding US Physical Sciences / T.Feder // Physics Today. – 2022. – Vol.75, No.11. – P.24-27.
https://doi.org/10.1063/PT.3.5119
3. Wieman, C. How to Become a Successful Physicist / C.Wieman // Physics Today. – 2022. – Vol.75, No.9. – P.46-52. - Bibliogr.:9.
https://doi.org/10.1063/PT.3.5082

С 3 г - История физики. Жизнь и деятельность выдающихся физиков
4. Barenghi, C. William Frank Vinen (15.02.1930 - 08.06.2022) / C.Barenghi, [et al.] // Physics Today. – 2022. – Vol.75, No.8. – P.60.
https://doi.org/10.1063/PT.3.5069
5. Behrman, J. Physics … Is for Girls? / J.Behrman // Physics Today. – 2022. – Vol.75, No.8. – P.30-36. - Bibliogr.:18.
https://doi.org/10.1063/PT.3.5061
6. Conover, E. The Higgs Boson at 10 / E.Conover // Science News. – 2022. – Vol.202, No.1. – P.18-23.
https://www.sciencenews.org/article/elusive-book-peter-higgs-boson-mass-physics
7. Das, A. Thomas Ferbel (12.12.1937 - 13.03.2022) / A.Das, P.F.Slattery // Physics Today. – 2022. – Vol.75, No.10. – P.67.
https://doi.org/10.1063/PT.3.5106
8. Duck, F. Paul Langevin, U-Boats, and Ultrasonics / F.Duck // Physics Today. – 2022. – Vol.75, No.11. – P.42-48. - Bibliogr.:17.
https://doi.org/10.1063/PT.3.5122
9. Dupuis, R.D. Nick Holonyak Jr (03.11.1928 - 18.09.2022) / R.D.Dupuis, M.Feng // Physics Today. – 2022. – Vol.75, No.12. – P.61.
https://doi.org/10.1063/PT.3.5145
10. Lathrop, D.P. Michael Ellis Fisher (03.09.1931 - 26.11.2021) / D.P.Lathrop, E.D.Williams // Physics Today. – 2022. – Vol.75, No.7. – P.61.
https://doi.org/10.1063/PT.3.5045
11. Mervis, J. Black Colleges Can’t Do It All / J.Mervis // Science. – 2022. – Vol.375, No.6584. –
p.960-963.
https://doi.org/10.1126/science.ada1537
12. Mervis, J. Can U.S. Physics Overcome Its Record of Exclusion? / J.Mervis // Science. – 2022. – Vol.375, No.6584. – P.950-951.
https://doi.org/10.1126/science.ada1542
13. Mervis, J. Fix the System, Not the Students / J.Mervis // Science. – 2022. – Vol.375, No.6584. – P.956-959.
https://doi.org/10.1126/science.ada1536
14. Mervis, J. Michigan’s Surprising Path to Diversity / J.Mervis // Science. – 2022. – Vol.375, No.6584. – P.967-969.
https://doi.org/10.1126/science.ada1538
15. Mervis, J. The Toll of White Privilege / J.Mervis // Science. – 2022. – Vol.375, No.6584. –
P.962-953.
https://doi.org/10.1126/science.ada1535
16. Mickens, R.E. The Trailblazing Career of Willie Hobbs Moore / R.E.Mickens // Physics Today. – 2022. – Vol.75, No.9. – P.30-35. - Bibliogr.:8.
https://doi.org/10.1063/PT.3.5080
17. O’Raifeartaigh, C. Schrodinger’s Oxford Years / C.O’Raifeartaigh // Science. – 2022. – Vol.375, No.6586. – P.1236. - Bibliogr.:2.
https://doi.org/10.1126/science.abo1777
18. Reimann, S.M. Ben Roy Mottelson (09.07.1926 - 13.05.2022) / S.M.Reimann, I.Hamamoto // Physics Today. – 2022. – Vol.75, No.10. – P.68.
https://doi.org/10.1063/PT.3.5107
19. Smart, A. Called to Teach / A.Smart // Science. – 2022. – Vol.375, No.6584. – P.964-966.
https://doi.org/10.1126/science.ada1539
20. Weisman, R.B. Robert Floyd Curl Jr (23.08.1933 - 03.07.2022) / R.B.Weisman, P.R.Brooks
// Physics Today. – 2022. – Vol.75, No.12. – P.60.
https://doi.org/10.1063/PT.3.5144

С 322 - Теория относительности
21. Schnabel, R. Einstein Would be Doubly Amazed / R.Schnabel // Physics Today. – 2022. – Vol.75, No.8. – P.46-51. - Bibliogr.:16.
https://doi.org/10.1063/PT.3.5063

С 323 - Квантовая механика
22. Carroll, S.M. Addressing the Quantum Measurement Problem / S.M.Carroll // Physics Today. – 2022. – Vol.75, No.7. – P.62-63. - Bibliogr.:4.
https://doi.org/10.1063/PT.3.5046
23. Conover, E. Machine Learning Gets a Quantum Boost / E.Conover // Science News. – 2022. – Vol.202, No.2. – P.12.
https://www.sciencenews.org/article/quantum-physics-machine-learning-google-computer
24. Hill, H.M. Physics Nobel Honors Foundational Quantum Entanglement Experiments / H.M.Hill
// Physics Today. – 2022. – Vol.75, No.12. – P.14-17. - Bibliogr.:8.
https://doi.org/10.1063/PT.3.5133
25. Perepelkin, E.E. Dispersion Chain of Quantum Mechanics Equations / E.E.Perepelkin, B.I.Sadovnikov, N.G.Inozemtseva, A.A.Korepanova // Journal of Physics A: Mathematical and Theoretical [Electronic resource]. – 2023. – Vol.56, No.14. – P.145202.
https://doi.org/10.1088/1751-8121/acbd71
26. Stahl, A. Gravitational Wave ‘Radar’ Could Map the Universe / A.Stahl // Science News. – 2022. – Vol.202, No.2. – P.12.
https://www.sciencenews.org/article/gravitational-wave-radar-map-invisible-universe-spacetime-dark-matter

С 324.2 - Нелокальные и нелинейные теории поля. Теории с высшими производными. Теории с индефинитной метрикой. Квантовая теория протяженных объектов. Струны. Мембраны. Мешки
27. Chen, N. A Synthetic Monopole Source of Kalb-Ramond Field in Diamond / N.Chen, [et al.]
// Science. – 2022. – Vol.375, No.6584. – P.1017-1020. - Bibliogr.:30.
https://doi.org/10.1126/science.abe6437

С 325 - Статистическая физика и термодинамика
28. Nurligareev, Kh.D. Watermelons on the Half-Plane / Kh.D.Nurligareev, A.M.Povolotsky // Journal of Statistical Mechanics: Theory and Experiment [Electronic resource]. – 2023. – Vol.2023, No.1. – P.013101.
https://doi.org/10.1088/1742-5468/acac72
29. Povolotsky, A.M. Exact Densities of Loops in O(1) Dense Loop Model and of Clusters in Critical Percolation on a Cylinder: II. Rotated Lattice / A.M.Povolotsky // Journal of Statistical Mechanics: Theory and Experiment [Electronic resource]. – 2023. – Vol.2023, No.3. – P.033103.
https://doi.org/10.1088/1742-5468/acbc21
30. Singh, M.S. Thermodynamics of the Climate System / M.S.Singh, M.E.O’Neill // Physics Today. – 2022. – Vol.75, No.7. – P.30-37. - Bibliogr.:16.
https://doi.org/10.1063/PT.3.5038
31. Yang, J. Spectroscopy Signatures of Electron Correlations in a Trilayer Graphene/hBN Moire Superlattice / J.Yang, [et al.] // Science. – 2022. – Vol.375, No.6586. – P.1295-1299. - Bibliogr.:40.
https://doi.org/10.1126/science.abg3036

С 325.8 - Квантовые объекты низкой размерности (за исключением эффектов Холла)
32. Wang, K. Metasurfaces for Quantum Technologies / K.Wang, [et al.] // Physics Today. – 2022. – Vol.75, No.8. – P.38-46. - Bibliogr.:18.
https://doi.org/10.1063/PT.3.5062

С 326 - Квантовая теория систем из многих частиц. Квантовая статистика
33. Appugliese, F. Breakdown of Topological Protection by Cavity Vacuum Fields in the Integer Quantum Hall Effect / F.Appugliese, [et al.] // Science. – 2022. – Vol.375, No.6584. – P.1030-1034. - Bibliogr.:33.
https://doi.org/10.1126/science.abl5818
34. Barashenkov, I.V. Integrability and Trajectory Confinement in PT-Symmetric Waveguide Arrays
/ I.V.Barashenkov, F.Smuts, A.Chernyavsky // Journal of Physics A: Mathematical and Theoretical [Electronic resource]. – 2023. – Vol.56, No.16. – P.165701. - Bibliogr.:23.
https://doi.org/10.1088/1751-8121/acc3ce
35. Hill, H.M. Magnetic Field Induces Spatially Varying Superconductivity / H.M.Hill // Physics Today. – 2022. – Vol.75, No.7. – P.16-18. - Bibliogr.:4.
https://doi.org/10.1063/PT.3.5034
36. Miller, J. Polariton Condensates Show Their Nonequilibrium Side / J.Miller // Physics Today. – 2022. – Vol.75, No.11. – P.16-18. - Bibliogr.:5.
https://doi.org/10.1063/PT.3.5116
37. Rubio, A. A New Hall for Quantum Protection / A.Rubio // Science. – 2022. – Vol.375, No.6584. – P.976-977. - Bibliogr.:14.
https://doi.org/10.1126/science.abn5990
38. Yukalov, V.I. Unified Theory of Quantum Crystals and Optical Lattices with Bose-Einstein Condensate / V.I.Yukalov // Laser Physics [Electronic resource]. – 2023. – Vol.33, No.5. – P.055501.
https://doi.org/10.1088/1555-6611/acc83e

С 33 а - Нанофизика. Нанотехнология
39. Толстой, В.П. 2D-Нанокристаллы оксидов и гидроксидов металлов с морфологией нанолистов в биомедицине, энергетике и химии / В.П.Толстой, [и др.] // Успехи химии. – 2023. – Т.92, №3. – С.RCR5071. - Библиогр.:317.
https://doi.org/10.57634/RCR5071

С 332 - Электромагнитные взаимодействия
40. Ablikim, M. Observation of e+e-ppp n - + c.c. / M.Ablikim, O.Bakina, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, P.Egorov, A.Guskov, Y.Nefedov, S.Pogodin, A.Sarantsev, A.Zhemchugov, [a.o.] // Chinese Physics C [Electronic resource]. – 2023. – Vol.47, No.4. – P.043001. - Bibliogr.:37.
https://doi.org/10.1088/1674-1137/acb6eb
41. Henriksen, E. Arthur Compton and the Mysteries of Light / E.Henriksen // Physics Today. – 2022. – Vol.75, No.12. – P.44-50. - Bibliogr.:18.
https://doi.org/10.1063/PT.3.5139
42. Kayalvizhi, R. Automated Detection of Threat Materials in X-Ray Baggage Inspection Systems (XBISs) / R.Kayalvizhi, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1923-1930. - Bibliogr.:36.
https://doi.org/10.1109/TNS.2022.3182771
43. Miller, J. A Metamaterial Lens Traps Atoms / J.Miller // Physics Today. – 2022. – Vol.75, No.10. – P.19-20. - Bibliogr.:2.
https://doi.org/10.1063/PT.3.5096
44. Oganesyan, K.B. Suddenly Switching-On Interaction in the Relativistic Strophotron / K.B.Oganesyan, M.Hnatic, [a.o.] // Laser Physics Letters [Electronic resource]. – 2023. – Vol.20, No.3. – P.036001.
https://doi.org/10.1088/1612-202X/acb43e

С 341 - Атомные ядра
45. Melezhik, V.S. Quantum-Quasiclassical Analysis of Center-of-Mass Nonseparability in Hydrogen Atom Stimulated by Strong Laser Fields / V.S.Melezhik // Journal of Physics A: Mathematical and Theoretical [Electronic resource]. – 2023. – Vol.56, No.15. – P.154003.
https://doi.org/10.1088/1751-8121/acc0e9
46. Shadmehri, S. A Hydrogen Atom in Strong Elliptically Polarized Laser Fields within Discrete Variable Representation / S.Shadmehri, V.S.Melezhik // Laser Physics [Electronic resource]. – 2023. – Vol.33, No.2. – P.026001.
https://doi.org/10.1088/1555-6611/acab53

С 343 е - Ядерные реакции с тяжелыми ионами
47. Liu, J. 63Cu(n, )60Co Cross Sections in the MeV Region / J.Liu, Yu.M.Gledenov, E.Sansarbayar, L.Krupa, I.Chuprakov, [a.o.] // Journal of Physics G [Electronic resource]. – 2023. – Vol.50, No.4. – P.045106.
https://doi.org/10.1088/1361-6471/acb960

С 344.1 - Методы и аппаратура для регистрации элементарных частиц и фотонов
48. Conover, E. Muons Open Doors / E.Conover // Science News. – 2022. – Vol.201, No.8. – P.22-26.
https://www.sciencenews.org/article/muon-subatomic-particle-volcano-pyramid-physics
49. Conover, E. New Detector Joins Dark Matter Hunt / E.Conover // Science News. – 2022. – Vol.202, No.3. – P.11.
https://www.sciencenews.org/article/dark-matter-lz-experiment-physics
50. Dohler, D. Characterization of a Fiber Optic Radiation Sensor Prototype for Nuclear Dismantling
/ D.Dohler, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1884-1892. - Bibliogr.:23.
https://doi.org/10.1109/TNS.2022.3189787
51. Feder, T. US Particle Physicists Envision Future of the Field / T.Feder // Physics Today. – 2022. – Vol.75, No.10. – P.22-25.
https://doi.org/10.1063/PT.3.5097
52. Fobar, D. A Machine Learning Approach to a Multidetector Array Response Function for Nuclear Search / D.Fobar, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. –
P.1939-1944. - Bibliogr.:22.
https://doi.org/10.1109/TNS.2022.3186831
53. Heavey, A. Building a Ship in a Bottle for Neutrino Science / A.Heavey // Physics Today. – 2022. – Vol.75, No.7. – P.46-52. - Bibliogr.:9.
https://doi.org/10.1063/PT.3.5040
54. Karadavut, O. Performance-Improved Vertical Ni/SiO 2 /4H-SiC Metal–Oxide–Semiconductor Capacitors for High-Resolution Radiation Detection / O.Karadavut, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1965-1971. - Bibliogr.:41.
https://doi.org/10.1109/TNS.2022.3168792
55. Niraula, M. Low-Temperature Annealing of CdTe Detectors with Evaporated Gold Contacts and Its Effect on Detector Performance / M.Niraula, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1960-1964. - Bibliogr.:19.
https://doi.org/10.1109/TNS.2022.3180009
56. Ozerov, S. Real-Time Shielded and Unshielded Moving SNM Detection Using Large-Array Tensioned Metastable Fluid Detectors / S.Ozerov, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1945-1951. - Bibliogr.:17.
https://doi.org/10.1109/TNS.2022.3184844
57. Pausch, G. Thermal Neutron Detection in Mixed Neutron-Gamma Fields with Common NaI(Tl) Detectors / G.Pausch, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. –
P.1893-1904. - Bibliogr.:33.
https://doi.org/10.1109/TNS.2022.3184452
58. Zhou, Y. A High Time-Resolved Front-End ASIC for APD Array Detector in Nuclear Resonant Scattering Experiments with Synchrotron Radiation / Y.Zhou, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1905-1912. - Bibliogr.:17.
https://doi.org/10.1109/TNS.2022.3187783

С 346.1 - Нейтрино
59. Conover, E. Neutrinos Could Spy Nuclear Rogues / E.Conover // Science News. – 2022. – Vol.202, No.1. – P.12.
https://www.sciencenews.org/article/neutrinos-submarine-nuclear-weapons-fuel-particles
60. Conover, E. Zippy Neutrino Linked to a Source / E.Conover // Science News. – 2022. – Vol.201, No.11. – P.8.
https://www.sciencenews.org/article/high-energy-neutrinos-black-holes-stars-tidal-disruption-event
61. Lopatka, A. A Star’s Demise Is Connected to a Neutrino Outburst / A.Lopatka // Physics Today. – 2022. – Vol.75, No.8. – P.14-16. - Bibliogr.:3.
https://doi.org/10.1063/PT.3.5056

С 346.6 - Резонансы и новые частицы
62. Conover, E. Subatomic Particle May Be Extra Hefty / E.Conover // Science News. – 2022. – Vol.201, No.9. – P.12.
https://www.sciencenews.org/article/w-boson-particle-mass-standard-model-physics

С 348 - Ядерные реакторы. Реакторостроение
63. Chen, X. Deep Reinforcement Learning Control of a Boiling Water Reactor / X.Chen, A.Ray // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1820-1832. - Bibliogr.:29.
https://doi.org/10.1109/TNS.2022.3187662
64. Аксенов, П.Л. Опыт разработки модели мониторинга риска для АЭС С ВВЭР-440
/ П.Л.Аксенов, [и др.] // Атомная энергия. – 2022. – Т.133, №3. – С.128-134. - Библиогр.:12.
https://j-atomicenergy.ru/index.php/ae/article/view/5229
65. Антонов, Н.А. Устройство бетонной подушки в обратной засыпке как способ изменения сейсмической реакции сооружения / Н.А.Антонов // Атомная энергия. – 2022. – Т.133, №3. –
С.139-144. - Библиогр.:7.

66. Игнатьев, А.А. Трехмерное моделирование перемешивания среды в защитной оболочке АЭС в ходе развития тяжелых аварий / А.А.Игнатьев, [и др.] // Атомная энергия. – 2022. – Т.133, №3. – С.151-156. - Библиогр.:5.
https://j-atomicenergy.ru/index.php/ae/article/view/5233
67. Лямкин, В.А. Первые криогенные испытания теплообменника источника ультрахолодных нейтронов на сверхтекучем гелии / В.А.Лямкин // Атомная энергия. – 2022. – Т.133, №3. –
С.174-177. - Библиогр.:10.
https://j-atomicenergy.ru/index.php/ae/article/view/5237
68. Магола, И.А. Источники и виды дебриса, образующегося при аварии с потерей теплоносителя на АЭС с ВВЭР / И.А.Магола, [и др.] // Атомная энергия. – 2022. – Т.133, №3. – С.156-164. - Библиогр.:7.
https://j-atomicenergy.ru/index.php/ae/article/view/5234
69. Магола, И.А. Экспериментальное обоснование фильтров баков-приямков проекта АЭС-2006
/ И.А.Магола, [и др.] // Атомная энергия. – 2022. – Т.133, №3. – С.164-170. - Библиогр.:7.
https://j-atomicenergy.ru/index.php/ae/article/view/5235
70. Нагибин, А.А. Методологические проблемы оценки показателей готовности энергоблоков АЭС на стадии проектирования / А.А.Нагибин, [и др.] // Атомная энергия. – 2022. – Т.133, №3. – С.123-128. - Библиогр.:6.
https://j-atomicenergy.ru/index.php/ae/article/view/5228
71. Сидоров, В.Г. Управление тяжелыми авариями на реакторных установках проекта АЭС-2006 (Ленинградская АЭС-2) / В.Г.Сидоров, [и др.] // Атомная энергия. – 2022. – Т.133, №3. – С.144-150. - Библиогр.:4.
https://j-atomicenergy.ru/index.php/ae/article/view/5232
72. Фиськов, А.А. Влияние термического воздействия и органосиликатного покрытия на свойства специализированного бетона при сооружении АЭС / А.А.Фиськов, [и др.] // Атомная энергия. – 2022. – Т.133, №3. – С.134-139. - Библиогр.:12.
https://j-atomicenergy.ru/index.php/ae/article/view/5230
73. Черный, О.Д. Экспериментальное исследование кризиса теплоотдачи на поверхности УЛР в условиях кипения борированной воды с дебрисом / О.Д.Черный, [и др.] // Атомная энергия. – 2022. – Т.133, №3. – С.170-174.
https://j-atomicenergy.ru/index.php/ae/article/view/5236

С 349 - Дозиметрия и физика защиты
74. Britten, R.A. Similar Loss of Executive Function Performance after Exposure to Low (10 cGy) Doses of Single (4He) Ions and the Multi-Ion GCRSim Beam / R.A.Britten, [et al.] // Radiation Research. – 2022. – Vol.198, No.4. – P.375-383. - Bibliogr.:41.
https://doi.org/10.1667/RADE-22-00022.1
75. Kramer, D. Slow But Steady Progress Seen for Carbon-Ion Cancer Therapy / D.Kramer // Physics Today. – 2022. – Vol.75, No.9. – P.22-25.
https://doi.org/10.1063/PT.3.5078
76. Milder, C.M. Deep Breaths: A Systematic Review of the Potential Effects of Employment in the Nuclear Industry on Mortality from Non-Malignant Respiratory Disease / C.M.Milder, [et al.] // Radiation Research. – 2022. – Vol.198, No.4. – P.396-429. - Bibliogr.:72.
https://doi.org/10.1667/RADE-21-00014.1
77. Rizzo, M. An Enhanced Sensitivity Operation Mode for Floating Gate Dosimeters / M.Rizzo, [et al.]
// IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1876-1882. - Bibliogr.:23.
https://doi.org/10.1109/TNS.2022.3185397

С 349 д - Биологическое действие излучений
78. Alipour, M. Static and Electromagnetic Fields Differently Affect Proliferation and Cell Death Through Acid Enhancement of ROS Generation in Mesenchymal Stem Cells / M.Alipour, [et al.]
// Radiation Research. – 2022. – Vol.198, No.4. – P.384-395. - Bibliogr.:47.
https://doi.org/10.1667/RADE-21-00037.1
79. Bright, S.J. Targeted Inhibition of DNA-PKcs, ATM, ATR, PARP, and Rad51 Modulate Response to X Rays and Protons / S.J.Bright, [et al.] // Radiation Research. – 2022. – Vol.198, No.4. – P.336-346. - Bibliogr.:69.
https://doi.org/10.1667/RADE-22-00040.1
80. Gasperetti, T. Mitigation of Multi-Organ Radiation Injury with ACE2 Agonist Diminazene Aceturate / T.Gasperetti, [et al.] // Radiation Research. – 2022. – Vol.198, No.4. – P.325-335. - Bibliogr.:50.
https://doi.org/10.1667/RADE-22-00055.1
81. Shiomi, N. Chromosomal Aberrations in Large Japanese Field Mice (Apodemus Speciosus) Captured in Various Periods after Fukushima Daiichi Nuclear Power Plant Accident / N.Shiomi, [et al.] // Radiation Research. – 2022. – Vol.198, No.4. – P.347-356. - Bibliogr.:25.
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82. Tamari, Y. Influence of Boron Neutron Capture Therapy on Normal Liver Tissue / Y.Tamari, [et al.] // Radiation Research. – 2022. – Vol.198, No.4. – P.368-374. - Bibliogr.:29.
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С 349.1 - Действие излучения на материалы
83. Dai, X. Origin of the X-Ray-Induced Damage in Perovskite Solar Cells / X.Dai, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1850-1856. - Bibliogr.:37.
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84. Kleppinger, J.W. Deep-Level Transient Spectroscopy and Radiation Detection Performance Studies on Neutron Irradiated 250-m-Thick 4H-SiC Epitaxial Layers / J.W.Kleppinger, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1972-1978. - Bibliogr.:48.
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85. Li, Y. Experimental Study of Transient Dose Rate Effect on System-in-Package SZ0501 / Y.Li, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1840-1849. - Bibliogr.:35.
https://doi.org/10.1109/TNS.2022.3189957
86. Wang, C. Investigation of Neutron Displacement Effects in Bipolar Amplifiers with Lateral and Substrate p-n-p Input Transistors / C.Wang, [et al.] // IEEE Transactions on Nuclear Science. – 2022. – Vol.69, No.8. – P.1979-1985. - Bibliogr.:21.
https://doi.org/10.1109/TNS.2022.3174034

С 4 - Химия
87. Miller, J. Chemistry Nobelists Developed Reactions That are "Compatible with Almost Everything"
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С 45 - Физическая химия
88. Cornish, S.L. Toward a Coherent Ultracold Chemistry / S.L.Cornish, J.M.Hutson // Science. – 2022. – Vol.375, No.6584. – P.975-976. - Bibliogr.:12.
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89. Mukherjee, A. Синтез -аминокарбонильных соединений: краткий обзор / A.Mukherjee, [и др.] // Успехи химии. – 2023. – Т.92, №3. – С.RCR5046. - Библиогр.:100.
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90. Son, H. Control of Reactive Collisions by Quantum Interference / H.Son, [et al.] // Science. – 2022. – Vol.375, No.6584. – P.1006-1010. - Bibliogr.:51.
https://doi.org/10.1126/science.abl7257
91. Tobias, W.G. Reactions between Layer-Resolved Molecules Mediated by Dipolar Spin Exchange
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92. Грайфер, Е.Д. Низкоразмерные полихалькогениды переходных металлов IV–VII групп и химические аспекты их применений / Е.Д.Грайфер, [и др.] // Успехи химии. – 2023. – Т.92, №3. – С.RCR5072. - Библиогр.:304.
https://doi.org/10.57634/RCR5072

С 63 - Астрофизика
93. Caleb, M. Unifying Repeating Fast Radio Bursts / M.Caleb // Science. – 2022. – Vol.375, No.6586. – P.1227-1228. - Bibliogr.:10.
https://doi.org/10.1126/science.abo2353
94. Conover, E. Glimpse of Cosmic Dawn Doubted / E.Conover // Science News. – 2022. – Vol.201, No.7. – P.8.
https://www.sciencenews.org/article/universe-first-stars-cosmic-dawn-not-found
95. Croswell, K. Milky Way Timing Pinned Down / K.Croswell // Science News. – 2022. – Vol.201, No.8. – P.15.
https://www.sciencenews.org/article/milky-way-galaxy-history-timeline-evolution-disk
96. Feng, Y. Frequency-Dependent Polarization of Repeating Fast Radio Bursts-Implications for Their Origin / Y.Feng, [et al.] // Science. – 2022. – Vol.375, No.6586. – P.1266-1270. - Bibliogr.:32.
https://doi.org/10.1126/science.abl7759
97. Kornei, K. A Celestial Loner's Identity Stirs Debate / K.Kornei // Science News. – 2022. – Vol.202, No.2. – P.11.
https://www.sciencenews.org/article/black-hole-rogue-wandering-mass-sun-gravity-neutron-star
98. Kruesi, L. Excess Light Stumps Astronomers / L.Kruesi // Science News. – 2022. – Vol.201, No.8. – P.14.
https://www.sciencenews.org/article/universe-cosmic-background-light-bright-new-horizons
99. Kruesi, L. Milky Way's Beast Comes into View / L.Kruesi, E.Conover // Science News. – 2022. – Vol.201, No.10. – P.6.
https://www.sciencenews.org/article/black-hole-milky-way-first-image-event-horizon-telescope
100. Kruesi, L. Nearby 'Black Hole' Fooled Scientists / L.Kruesi // Science News. – 2022. – Vol.201, No.7. – P.8.
https://www.sciencenews.org/article/earth-nearest-black-hole-star-system-binary-space
101. Kruesi, L. Sound on Mars Travels at Two Speeds / L.Kruesi // Science News. – 2022. – Vol.201, No.9. – P.14.
https://www.sciencenews.org/article/neptune-temperature-atmosphere-new-thermal-maps
102. Kruesi, L. This Early Galaxy Passes a Lot of Gas / L.Kruesi // Science News. – 2022. – Vol.202, No.2. – P.10.
https://www.sciencenews.org/article/galaxy-early-universe-star-formation-hot-gas-space
103. Raouafi, N.E. A Journey to Touch the Sun / N.E.Raouafi // Physics Today. – 2022. – Vol.75, No.11. – P.28-34. - Bibliogr.:18.
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Ц 84 а - Вычислительные машины в целом
104. Di Ventra, M. MemComputing: When Memory Becomes a Computing Tool / M.Di Ventra
// Physics Today. – 2022. – Vol.75, No.11. – P.36-41. - Bibliogr.:13.
https://doi.org/10.1063/PT.3.5121

28.0 - Биология
105. Brown, A. A.V. Hill: The Man Behind the Initials / A.Brown // Physics Today. – 2022. – Vol.75, No.7. – P.38-45. - Bibliogr.:18.
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106. Fox, D. What Makes Tardigrades So Tough? / D.Fox // Science News. – 2022. – Vol.202, No.2. – P.30-31.
https://www.sciencenews.org/article/tardigrades-space-travel-survival-humans
107. Koo, C.W. Recovery of Particulate Methane Monooxygenase Structure and Activity in a Lipid Bilayer / C.W.Koo, [et al.] // Science. – 2022. – Vol.375, No.6586. – P.1287-1291. - Bibliogr.:42.
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108. Miller, J. Turbines and Motors Made of DNA / J.Miller // Physics Today. – 2022. – Vol.75, No.10. – P.14-16. - Bibliogr.:5.
https://doi.org/10.1063/PT.3.5094
109. Sanders, L. The Star Potential of Glia / L.Sanders // Science News. – 2022. – Vol.201, No.10. – P.16-19.
https://www.sciencenews.org/article/parkinsons-disease-brain-cell-death-neuron-dopamine

28.08 - Экология
110. Bernath, P. Wildfire Smoke Destroys Stratospheric Ozone / P.Bernath, [et al.] // Science. – 2022. – Vol.375, No.6586. – P.1292-1295. - Bibliogr.:24.
https://doi.org/10.1126/science.abm5611
111. Ogasa, N. Live Wires / N.Ogasa // Science News. – 2022. – Vol.202, No.2. – P.24-28.
https://www.sciencenews.org/article/electrical-bacteria-may-help-clean-oil-spills-and-curb-methane-emissions


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