Информационный  бюллетень «Статьи» № 40

08.10.2018

С 17 - Вычислительная математика. Таблицы

1. Meneses-Juarez, E. Static Dielectric Constant of Water Within a Bilayer Using Recent Water Models: a Molecular Dynamics Study / E.Meneses-Juarez, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.195001. - Bibliogr.:38.

http://dx.doi.org/10.1088/1361-648X/aab9ee

С 17 и - Математическая кибернетика

2. Kim, J. QMCPACK: an Open Source ab Initio Quantum Monte Carlo Package for the Electronic Structure of Atoms, Molecules and Solids / J.Kim, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.195901. - Bibliogr.:212.

http://dx.doi.org/10.1088/1361-648X/aab9c3

С 3 - Физика

3. Alberto Benvenuti 1940–2018 // CERN Courier. – 2018. – Vol.58, No.6. – p.41.

С 322 - Теория относительности

4. Krivoruchenko, M.I. Hydrostatic Equilibrium of Stars without Electroneutrality Constraint / M.I.Krivoruchenko, D.K.Nadyozhin, A.V.Yudin // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.8. – p.083016. - Bibliogr.:41.

http://dx.doi.org/10.1103/PhysRevD.97.083016

5. Paschalidis, V. Implications from GW170817 and I-Love-Q Relations for Relativistic Hybrid Stars / V.Paschalidis, D.Alvarez-Castillo, D.B.Blaschke, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.8. – p.084038. - Bibliogr.:107.

http://dx.doi.org/10.1103/PhysRevD.97.084038

6. Rudiger, G. Stability and Instability of Hydromagnetic Taylor–Couette Flows / G.Rudiger, [et al.] // Physics Reports. – 2018. – Vol.741. – p.1-89. - Bibliogr.:195.

http://dx.doi.org/10.1016/j.physrep.2018.02.006

С 323 - Квантовая механика

7. Koh, D.E. Quantum Simulation from the Bottom Up: the Case of Rebits / D.E.Koh, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.19. – p.195302. - Bibliogr.:45.

http://dx.doi.org/10.1088/1751-8121/aab9c4

8. Кощеев, В.П. Новый подход к вычислению потенциальной энергии взаимодействия двух атомов / В.П.Кощеев, Ю.Н.Штанов // Журнал технической физики. Письма. – 2018. – Т.44, №13. – с.28-35. - Библиогр.:8.

https://journals.ioffe.ru/articles/viewPDF/46324

С 323.5 - Теория взаимодействия частиц при высоких энергиях

9. Sidorov, A.V. Asymptotics of the Contour of the Stationary Phase and Efficient Evaluation of the Mellin-Barnes Integral for the F 3 Structure Function / A.V.Sidorov, V.I.Lashkevich, O.P.Solovtsova // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.076009. - Bibliogr.:15.

http://dx.doi.org/10.1103/PhysRevD.97.076009

С 324.1а - Квантовая электродинамика. Эксперименты по проверке КЭД при высоких и низких энергиях

10. Teber, S. Field Theoretic Renormalization Study of Reduced Quantum Electrodynamics and Applications to the Ultrarelativistic Limit of Dirac Liquids / S.Teber, A.V.Kotikov // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.074004. - Bibliogr.:118.

http://dx.doi.org/10.1103/PhysRevD.97.074004

С 324.1б - Сильные взаимодействия. Электромагнитная структура частиц. Алгебра токов. Киральные теории. Теория Редже

11. Gao, J. The Structure of the Proton in the LHC Precision Era / J.Gao, [et al.] // Physics Reports. – 2018. – Vol.742. – p.1-121. - Bibliogr.:612.

http://dx.doi.org/10.1016/j.physrep.2018.03.002

12. Prokhorov, G. Anomalous Current from the Covariant Wigner Function / G.Prokhorov, O.Teryaev // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.076013. - Bibliogr.:28.

http://dx.doi.org/10.1103/PhysRevD.97.076013

С 324.1д - Квантовая хромодинамика

13. Osipov, A.A. Anomalous Decay f 1 (1285) +- in the Nambu-Jona-Lasinio Model / A.A.Osipov, M.K.Volkov // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.074020. - Bibliogr.:24.

http://dx.doi.org/10.1103/PhysRevD.97.074020

С 324.1е - Суперсимметричные теории. Супергравитация. Суперструны

14. Kozyrev, N. N=4 Supersymmetric Mechanics on Curved Spaces / N.Kozyrev, S.Krivonos, O.Lechtenfeld, A.Nersessian, A.Sutulin // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.8. – p.085015. - Bibliogr.:21.

http://dx.doi.org/10.1103/PhysRevD.97.085015

15. Абдуллаев, С.К. Рождение скалярного бозона и тяжелой фермионной пары на встречных e-e+-пучках / С.К.Абдуллаев, [и др.] // Известия высших учебных заведений. Физика. – 2018. – Т.61, №7. – с.111-118. - Библиогр.:16.

http://dx.doi.org/10.1007/s11182-018-1371-0

С 324.2 - Нелокальные и нелинейные теории поля. Теории с высшими производными. Теории с индефинитной метрикой. Квантовая теория протяженных объектов. Струны. Мембраны. Мешки

16. Samoilenka, A. Gauged Merons / A.Samoilenka, Ya.Shnir // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.4. – p.045004. - Bibliogr.:33.

http://dx.doi.org/10.1103/PhysRevD.97.045004

17. Wen, X. Entanglement Evolution Across a Conformal Interface / X.Wen, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.19. – p.195004. - Bibliogr.:59.

http://dx.doi.org/10.1088/1751-8121/aab561

С 325 - Статистическая физика и термодинамика

18. Alencar, T.V. Twisted Bilayer Graphene Photoluminescence Emission Peaks at Van Hove Singularities / T.V.Alencar, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.17. – p.175302. - Bibliogr.:37.

http://dx.doi.org/10.1088/1361-648X/aab64b

19. Chavez, Y. Effects of Curved Midline and Varying Width on the Description of the Effective Diffusivity of Brownian Particles / Y.Chavez, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.194001. - Bibliogr.:59.

http://dx.doi.org/10.1088/1361-648X/aaba0d

20. Jeknic-Dugic, J. Dynamical Stability of the One-Dimensional Rigid Brownian Rotator: the Role of the Rotator's Spatial Size and Shape / J.Jeknic-Dugic, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.195304. - Bibliogr.:42.

http://dx.doi.org/10.1088/1361-648X/aab9ef

21. Manesco, A.L.R. Hidden Chiral Symmetries in BDI Multichannel Kitaev Chains / A.L.R.Manesco, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.17. – p.175401. - Bibliogr.:47.

http://dx.doi.org/10.1088/1361-648X/aab722

22. Mei, H. Terahertz Magneto-Optical Properties of Bi- and Tri-Layer Graphene / H.Mei, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.17. – p.175701. - Bibliogr.:44.

http://dx.doi.org/10.1088/1361-648X/aab81d

23. Missaoui, A. Mobility Gap and Quantum Transport in a Functionalized Graphene Bilayer / A.Missaoui, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.195701. - Bibliogr.:57.

http://dx.doi.org/10.1088/1361-648X/aaba06

24. Pont, F.M. Quasi-Exact Solvability and Entropies of the One-Dimensional Regularised Calogero Model / F.M.Pont, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.19. – p.195303. - Bibliogr.:42.

http://dx.doi.org/10.1088/1751-8121/aab85e

25. Sherman, A. Influence of Spin and Charge Fluctuations on Spectra of the Two-Dimensional Hubbard Model / A.Sherman // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.195601. - Bibliogr.:65.

http://dx.doi.org/10.1088/1361-648X/aaba0e

С 325.8 - Квантовые объекты низкой размерности (за исключением эффектов Холла)

26. Blair, E.P. Entanglement Loss in Molecular Quantum-Dot Qubits Due to Interaction with the Environment / E.P.Blair, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.195602. - Bibliogr.:41.

http://dx.doi.org/10.1088/1361-648X/aab98d

27. Zhang, B. Antiferromagnetic Monolayer MnC 2 with Density Functional Theory Prediction / B.Zhang, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.17. – p.175301. - Bibliogr.:41.

http://dx.doi.org/10.1088/1361-648X/aab6c4

С 326 - Квантовая теория систем из многих частиц. Квантовая статистика

28. Bauer, M. Thermal Contact Through a Two-Temperature Kinetic Ising Chain / M.Bauer, F.Cornu // Journal of Physics A. – 2018. – Vol.51, No.19. – p.195002. - Bibliogr.:24.

http://dx.doi.org/10.1088/1751-8121/aab9e7

29. Borcherding, D. Signatures of Non-Abelian Anyons in the Thermodynamics of an Interacting Fermion Model / D.Borcherding, H.Frahm // Journal of Physics A. – 2018. – Vol.51, No.19. – p.195001. - Bibliogr.:47.

http://dx.doi.org/10.1088/1751-8121/aaba1e

30. Hajzadeh, I. Spin Hall Effect Originated from Fractal Surface / I.Hajzadeh, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.195804. - Bibliogr.:37.

http://dx.doi.org/10.1088/1361-648X/aab98a

31. Monthus, C. Many-Body-Localization: Strong Disorder Perturbative Approach for the Local Integrals of Motion / C.Monthus // Journal of Physics A. – 2018. – Vol.51, No.19. – p.195301. - Bibliogr.:50.

http://dx.doi.org/10.1088/1751-8121/aabb24

32. Pastukhov, V. Polaron in the Dilute Critical Bose Condensate / V.Pastukhov // Journal of Physics A. – 2018. – Vol.51, No.19. – p.195003. - Bibliogr.:45.

http://dx.doi.org/10.1088/1751-8121/aab9c1

С 33 а - Нанофизика. Нанотехнология

33. Tanis, J.A. Charge Deposition Dependence of Electron Transmission Through PET Nanocapillaries and a Tapered Glass Microcapillary / J.A.Tanis, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.1-6. - Bibliogr.:17.

https://doi.org/10.1016/j.nimb.2018.03.001

34. Абдуллин, Х.А. Влияние ультрафиолетовой засветки и влажности на спектры фотолюминесценции оксида цинка / Х.А.Абдуллин, [и др.] // Журнал технической физики. Письма. – 2018. – Т.44, №13. – с.80-87. - Библиогр.:9.

https://journals.ioffe.ru/articles/viewPDF/46331

35. Галицкая, Е.А. Импульсная активация топливного элемента на основе протонпроводящей полимерной мембраны / Е.А.Галицкая, [и др.] // Журнал технической физики. Письма. – 2018. – Т.44, №13. – с.36-43. - Библиогр.:15.

https://journals.ioffe.ru/articles/viewPDF/46325

36. Есин, М.Ю. Изучение формирования ступенчатой поверхности Si(100) при молекулярно-лучевой эпитаксии / М.Ю.Есин, [и др.] // Известия высших учебных заведений. Физика. – 2018. – Т.61, №7. – с.22-26. - Библиогр.:14.

http://dx.doi.org/10.1007/s11182-018-1295-8

37. Родригес, Р. Билет в наномир / Р.Родригес, Е.С.Шеремет // В мире науки. – 2018. – №7. – с.108-114.

https://sciam.ru/articles/details/bilet-v-nanomir

38. Яфаров, Р.К. Влияние дипольной поляризации эмитирующей поверхности на пороги автоэмиссии многоострийных кремниевых катодных матриц / Р.К.Яфаров // Журнал технической физики. Письма. – 2018. – Т.44, №13. – с.68-74. - Библиогр.:7.

https://journals.ioffe.ru/articles/viewPDF/46329

С 332 - Электромагнитные взаимодействия

39. John, M. Improving Depth Resolutions in Positron Beam Spectroscopy by Concurrent Ion-Beam Sputtering / M.John, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.62-66. - Bibliogr.:12.

http://dx.doi.org/10.1016/j.nimb.2018.03.017

40. Li, X. Pressure-Induced Photoluminescence of MgO / X.Li, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.194002. - Bibliogr.:22.

http://dx.doi.org/10.1088/1361-648X/aabb40

41. Ганжерли, Н.М. Эффект воздействия коротковолнового УФ излучения при записи голографических структур на содержащих желатин регистрирующих средах : (обзор) / Н.М.Ганжерли, [и др.] // Оптика и спектроскопия. – 2018. – Т.125, №1. – с.62-70. - Библиогр.:45.

https://journals.ioffe.ru/articles/viewPDF/46268

42. Ежов, В.Ф. Магнитный затвор ловушки из постоянных магнитов для хранения ультрахолодных нейтронов / В.Ф.Ежов, [и др.] // Журнал технической физики. Письма. – 2018. – Т.44, №13. – с.103-110. - Библиогр.:6.

https://journals.ioffe.ru/articles/viewPDF/46334

43. Еремина, О.Е. Спектроскопия гигантского комбинационного рассеяния в современном химическом анализе: достижения и перспективы использования / О.Е.Еремина, [и др.] // Успехи химии. – 2018. – Т.87, №8. – с.741-770. - Библиогр.:502.

http://dx.doi.org/10.1070/RCR4804

44. Смольникова, О.Н. Сравнительные особенности электромагнитного рассеяния на невидимой сферически симметричной линзе с отрицательным показателем преломления / О.Н.Смольникова, С.П.Скобелев // Оптика и спектроскопия. – 2018. – Т.125, №1. – с.85-90. - Библиогр.:11.

https://journals.ioffe.ru/articles/viewPDF/46271

45. Шамына, А.А. Генерация суммарной частоты от тонкого сферического слоя. II. Анализ решения / А.А.Шамына, В.Н.Капшай // Оптика и спектроскопия. – 2018. – Т.125, №1. – с.71-78. - Библиогр.:14.

https://journals.ioffe.ru/articles/viewPDF/46269

С 332.7 - Встречные е+е- и мю+мю- пучки

46. Ablikim, M. Improved Measurements of cJ+ - and 0 0 Decays / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.052011. - Bibliogr.:22.

http://dx.doi.org/10.1103/PhysRevD.97.052011

47. Ablikim, M. Measurement of e+e-00(3686) at s from 4.009 to 4.600 GeV and Observation of a Neutral Charmoniumlike Structure / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.052001. - Bibliogr.:38.

http://dx.doi.org/10.1103/PhysRevD.97.052001

48. Ablikim, M. Measurement of e+e-KK J/ Cross Sections at Center-of-Mass Energies from 4.189 to 4.600 GeV / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.071101(R). - Bibliogr.:33.

http://dx.doi.org/10.1103/PhysRevD.97.071101

49. Ablikim, M. Measurement of the Absolute Branching Fraction of D * s0 (2317) 0D s / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.051103. - Bibliogr.:31.

http://dx.doi.org/10.1103/PhysRevD.97.051103

50. Ablikim, M. Measurements of Absolute Branching Fractions for D Mesons Decays into Two Pseudoscalar Mesons / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.072004. - Bibliogr.:29.

http://dx.doi.org/10.1103/PhysRevD.97.072004

51. Ablikim, M. Measurements of the Branching Fractions of the Single Cabibbo-Suppressed Decays D0, (' )0 and (' ) / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.052005. - Bibliogr.:22.

http://dx.doi.org/10.1103/PhysRevD.97.052005

52. Ablikim, M. Search for h c +-J/ via (3686)0+-J/ / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.052008. - Bibliogr.:26.

http://dx.doi.org/10.1103/PhysRevD.97.052008

53. Ablikim, M. Search for the Rare Decays Dh(h (` ))e+e- / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, A.Guskov, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.072015. - Bibliogr.:23.

http://dx.doi.org/10.1103/PhysRevD.97.072015

54. Ablikim, M. Study of (1475) and X(1835) in Radiative J/ Decays to  / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.051101(R). - Bibliogr.:30.

http://dx.doi.org/10.1103/PhysRevD.97.051101

55. Ablikim, M. Study of Two-Photon Decays of Pseudoscalar Mesons via J/ Radiative Decays / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.072014. - Bibliogr.:35.

http://dx.doi.org/10.1103/PhysRevD.97.072014

С 341 - Атомные ядра

56. Kondev, F.G. Nuclear Data Sheets for A = 188 / F.G.Kondev, [et al.] // Nuclear Data Sheets. – 2018. – Vol.150. – p.1-364. - Bibliogr.:p.348-364.

http://dx.doi.org/10.1016/j.nds.2018.05.001

С 341.3 - Деление ядер

57. Capote, R. IAEA CIELO Evaluation of Neutron-Induced Reactions on 235U and 238U Targets / R.Capote, [et al.] // Nuclear Data Sheets. – 2018. – Vol.148. – p.254-292. - Bibliogr.:222.

http://dx.doi.org/10.1016/j.nds.2018.02.005

58. Devlin, M. The Prompt Fission Neutron Spectrum of 235U(n, f) Below 2.5 MeV for Incident Neutrons from 0.7 to 20 MeV / M.Devlin, [et al.] // Nuclear Data Sheets. – 2018. – Vol.148. – p.322-337. - Bibliogr.:54.

http://dx.doi.org/10.1016/j.nds.2018.02.008

59. Neudecker, D. Evaluations of Energy Spectra of Neutrons Emitted Promptly in Neutron-Induced Fission of 235U and 239Pu / D.Neudecker, [et al.] // Nuclear Data Sheets. – 2018. – Vol.148. – p.293-311. - Bibliogr.:73.

http://dx.doi.org/10.1016/j.nds.2018.02.006

С 342 - Прохождение частиц и гамма-квантов через вещество

60. Bruckner, B. A Note on Extracting Electronic Stopping from Energy Spectra of Backscattered Slow Ions Applying Bragg’s Rule / B.Bruckner, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.82-86. - Bibliogr.:24.

http://dx.doi.org/10.1016/j.nimb.2018.02.005

61. Ganenko, V.B. Mechanisms of 200 MeV Electron Radiation in Diamond Crystal in the Axial Orientation / V.B.Ganenko, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.424. – p.17-25. - Bibliogr.:9.

http://dx.doi.org/10.1016/j.nimb.2018.03.011

62. Jalabert, D. Ion Blocking Dip Shape Analysis Around a LaAlO 3 /SrTiO 3 Interface / D.Jalabert, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.67-71. - Bibliogr.:35.

http://dx.doi.org/10.1016/j.nimb.2018.03.010

63. Kitajima, K. Mass Spectrometric Study of the Negative and Positive Secondary Ions Emitted from Ethanol Microdroplets by MeV-Energy Heavy Ion Impact / K.Kitajima, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.424. – p.10-16. - Bibliogr.:52.

http://dx.doi.org/10.1016/j.nimb.2018.03.029

64. Shen, H. Channeling and Radiation of 855 MeV Electrons and Positrons in Straight and Bent Tungsten (1 1 0) Crystals / H.Shen, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.424. – p.26-36. - Bibliogr.:84.

http://dx.doi.org/10.1016/j.nimb.2018.03.025

65. Yoneda, T. Stopping Power for 4.8–6.8 MeV C Ions Along [1 1 0] and [1 1 1] Directions in Si / T.Yoneda, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.425. – p.1-3. - Bibliogr.:19.

http://dx.doi.org/10.1016/j.nimb.2018.03.024

66. Тарасенко, В.Ф. Свечение кристаллов при возбуждении пучком электронов с длительностью импульса 110 пс / В.Ф.Тарасенко, [и др.] // Известия высших учебных заведений. Физика. – 2018. – Т.61, №7. – с.160-161. - Библиогр.:6.

С 343 - Ядерные реакции

67. Brown, D.A. ENDF/B-VIII.0: The 8 th Major Release of the Nuclear Reaction Data Library with CIELO-Project Cross Sections, New Standards and Thermal Scattering Data / D.A.Brown, [et al.] // Nuclear Data Sheets. – 2018. – Vol.148. – p.1-142. - Bibliogr.:475.

http://dx.doi.org/10.1016/j.nds.2018.02.001

68. Hermanne, A. Reference Cross Sections for Charged-Particle Monitor Reactions / A.Hermanne, [et al.] // Nuclear Data Sheets. – 2018. – Vol.148. – p.338-382. - Bibliogr.:340.

http://dx.doi.org/10.1016/j.nds.2018.02.009

69. Moro, M.V. Stopping Cross Section of Vanadium for H+ and He+ Ions in a Large Energy Interval Deduced from Backscattering Spectra / M.V.Moro, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.424. – p.43-51. - Bibliogr.:76.

http://dx.doi.org/10.1016/j.nimb.2018.03.032

70. Гаузштейн, В.В. Измерение компонент тензорной анализирующей способности реакции d pp- в области малых энергий протонов / В.В.Гаузштейн, [и др.] // Известия высших учебных заведений. Физика. – 2018. – Т.61, №7. – с.119-125. - Библиогр.:30.

http://dx.doi.org/10.1007/s11182-016-0847-z

71. Дубовиченко, С.Б. Радиационный p14N-захват на первое возбужденное состояние ядра 15O / С.Б.Дубовиченко, Н.А.Буркова // Известия высших учебных заведений. Физика. – 2018. – Т.61, №7. – с.105-110. - Библиогр.:21.

С 343 г - Взаимодействие нейтронов с ядрами

72. Carlson, A.D. Evaluation of the Neutron Data Standards / A.D.Carlson, [et al.] // Nuclear Data Sheets. – 2018. – Vol.148. – p.143-188. - Bibliogr.:104.

http://dx.doi.org/10.1016/j.nds.2018.02.002

73. Chadwick, M.B. CIELO Collaboration Summary Results: International Evaluations of Neutron Reactions on Uranium, Plutonium, Iron, Oxygen and Hydrogen / M.B.Chadwick, [et al.] // Nuclear Data Sheets. – 2018. – Vol.148. – p.189-213. - Bibliogr.:85.

http://dx.doi.org/10.1016/j.nds.2018.02.003

74. De Saint Jean, C. Evaluation of Neutron-induced Cross Sections and Their Related Covariances with Physical Constraints / C.De Saint Jean, [et al.] // Nuclear Data Sheets. – 2018. – Vol.148. – p.383-419. - Bibliogr.:137.

http://dx.doi.org/10.1016/j.nds.2018.02.010

75. Herman, M. Evaluation of Neutron Reactions on Iron Isotopes for CIELO and ENDF/B-VIII.0 / M.Herman, [et al.] // Nuclear Data Sheets. – 2018. – Vol.148. – p.214-253. - Bibliogr.:262.

http://dx.doi.org/10.1016/j.nds.2018.02.004

76. Hien, N.T. Measurements of the Thermal Neutron Cross-Section and Resonance Integral for the 108Pd(n, )109Pd Reaction / N.T.Hien, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.424. – p.37-42. - Bibliogr.:47.

http://dx.doi.org/10.1016/j.nimb.2018.03.031

77. Mosby, S. 239Pu(n, ) from 10 eV to 1.3 MeV / S.Mosby, [et al.] // Nuclear Data Sheets. – 2018. – Vol.148. – p.312-321. - Bibliogr.:22.

http://dx.doi.org/10.1016/j.nds.2018.02.007

С 343 е - Ядерные реакции с тяжелыми ионами

78. Nakao, N. Measurement of the Neutron Angular Distribution from a Beryllium Target Bombarded with a 345-MeV/u 238U Beam at the RIKEN RI Beam Factory / N.Nakao, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.27-36. - Bibliogr.:16.

http://dx.doi.org/10.1016/j.nimb.2018.02.036

С 344.1 - Методы и аппаратура для регистрации элементарных частиц и фотонов

79. An, F.P. Cosmogenic Neutron Production at Daya Bay / F.P.An, A.Chukanov, M.Dolgareva, M.Gonchar, D.Naumov, E.Naumova, A.Olshevskiy, D.Taychenachev, K.Treskov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.052009. - Bibliogr.:40.

http://dx.doi.org/10.1103/PhysRevD.97.052009

80. Arneodo, F. Cryogenic Readout for Multiple VUV4 Multi-Pixel Photon Counters in Liquid Xenon / F.Arneodo, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.117-123. - Bibliogr.:16.

http://dx.doi.org/10.1016/j.nimb.2018.03.022

81. Asal, E.K. Prompt Isothermal Decay Properties of the Sr 4 Al 14 O 25 Co-Doped with Eu2+ and Dy3+ Persistent Luminescent Phosphor / E.K.Asal, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.425. – p.55-61. - Bibliogr.:36.

http://dx.doi.org/10.1016/j.nimb.2018.04.010

82. Bochenek, M. IBEX: Versatile Readout ASIC with Spectral Imaging Capability and High Count Rate Capability / M.Bochenek, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1285-1291. - Bibliogr.:13.

http://dx.doi.org/10.1109/TNS.2018.2832464

83. Breuer, L. Secondary Ion Formation During Electronic and Nuclear Sputtering of Germanium / L.Breuer, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.424. – p.1-9. - Bibliogr.:64.

http://dx.doi.org/10.1016/j.nimb.2018.03.019

84. Cardarelli, P. A Gamma Beam Profile Imager for ELI-NP Gamma Beam System / P.Cardarelli, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.109-116. - Bibliogr.:28.

http://dx.doi.org/10.1016/j.nima.2018.03.023

85. Harvey, A.H. Candidates to Replace R-12 as a Radiator Gas in Cherenkov Detectors / A.H.Harvey, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.425. – p.38-42. - Bibliogr.:41.

http://dx.doi.org/10.1016/j.nimb.2018.04.006

86. Jeong, M. Comparison between Pixelated Scintillators: CsI(Tl), LaCl 3 (Ce) and LYSO(Ce) When Coupled to a Silicon Photomultipliers Array / M.Jeong, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.75-83. - Bibliogr.:37.

http://dx.doi.org/10.1016/j.nima.2018.03.024

87. Krieger, C. Energy Dependent Features of X-Ray Signals in a GridPix Detector / C.Krieger, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.26-34. - Bibliogr.:13.

http://dx.doi.org/10.1016/j.nima.2018.02.109

88. Liu, F. Structural and Electrical Properties of Se-Hyperdoped Si Via Ion Implantation and Flash Lamp Annealing / F.Liu, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.424. – p.52-55. - Bibliogr.:22.

http://dx.doi.org/10.1016/j.nimb.2018.03.033

89. Lu, B. Design of a CDS ASIC for Multireadout X-Ray CCDs With a 0.032% INL / B.Lu, Y.Chen // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1307-1314. - Bibliogr.:32.

http://dx.doi.org/10.1109/TNS.2018.2833484

90. Mor, I. Automatic Detection of Recoil-Proton Tracks and Background Rejection Criteria in Liquid Scintillator-Micro-Capillary-Array Fast Neutron Spectrometer / I.Mor, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.57-67. - Bibliogr.:27.

http://dx.doi.org/10.1016/j.nima.2018.02.113

91. Onken, D.R. Investigating the Origins of Double Photopeaks in CsI:Tl Samples Through Activator Mapping / D.R.Onken, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.151-156. - Bibliogr.:26.

http://dx.doi.org/10.1016/j.nima.2018.03.028

92. Osovizky, A. Design of an Ultrathin Cold Neutron Detector / A.Osovizky, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.1-9. - Bibliogr.:29.

http://dx.doi.org/10.1016/j.nima.2018.02.073

93. Perez, M. Thermal Neutron Detector Based on COTS CMOS Imagers and a Conversion Layer Containing Gadolinium / M.Perez, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.157-163. - Bibliogr.:37.

http://dx.doi.org/10.1016/j.nima.2018.03.032

94. Schuster, P. On the Relationship between Scintillation Anisotropy and Crystal Structure in Pure Crystalline Organic Scintillator Materials / P.Schuster, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1292-1306. - Bibliogr.:28.

http://dx.doi.org/10.1109/TNS.2018.2833030

95. Sun, Y. Design and Construction of a Time-of-Flight Wall Detector at External Target Facility of HIRFL-CSR / Y.Sun, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.68-74. - Bibliogr.:45.

http://dx.doi.org/10.1016/j.nima.2018.03.030

96. Tran, H.N. Comparison of the Thermal Neutron Scattering Treatment in MCNP6 and GEANT4 Codes / H.N.Tran, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.84-94. - Bibliogr.:19.

http://dx.doi.org/10.1016/j.nima.2018.02.094

97. Tyagi, P.V. Plasma Ignition and Tuning in Different Cells of a 1.3 GHz Nine-Cell Superconducting Radio Frequency Cavity: Proof of Principle / P.V.Tyagi, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.95-98. - Bibliogr.:19.

http://dx.doi.org/10.1016/j.nima.2018.02.087

98. Tykhonov, A. Internal Alignment and Position Resolution of the Silicon Tracker of DAMPE Determined with Orbit Data / A.Tykhonov, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.43-56. - Bibliogr.:15.

http://dx.doi.org/10.1016/j.nima.2018.02.105

99. Ueno, Y. Development of a High Sensitivity Pinhole Type Gamma Camera Using Semiconductors for Low Dose Rate Fields / Y.Ueno, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.15-25. - Bibliogr.:25.

http://dx.doi.org/10.1016/j.nima.2018.03.008

100. Virone, I. Gravity Assisted Recovery of Liquid Xenon at Large Mass Flow Rates / I.Virone, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.10-14. - Bibliogr.:16.

http://dx.doi.org/10.1016/j.nima.2018.02.097

101. Yang, W. Study on the Performance of the Neutron Diffractometer (HIPD at CARR) by Monte Carlo Simulation and Convolution Methods / W.Yang, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1324-1330. - Bibliogr.:13.

http://dx.doi.org/10.1109/TNS.2018.2833510

102. Zhu, Z. High-Temperature Performance of Gallium-Nitride-Based Pin Alpha-Particle Detectors Grown on Sapphire Substrates / Z.Zhu, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.39-42. - Bibliogr.:27.

http://dx.doi.org/10.1016/j.nima.2018.03.033

С 344.3 - Ядерная электроника

103. Das, S. A Compton Suppressed Detector Multiplicity Trigger Based Digital DAQ for Gamma-Ray Spectroscopy / S.Das, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.138-145. - Bibliogr.:10.

http://dx.doi.org/10.1016/j.nima.2018.03.035

104. Deng, P. Readout Electronics of T0 Detector in the External Target Experiment of CSR in HIRFL / P.Deng, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1315-1323. - Bibliogr.:19.

http://dx.doi.org/10.1109/TNS.2018.2834426

105. Nakhostin, M. Pulse-Height Loss in the Signal Readout Circuit of Compound Semiconductor Detectors / M.Nakhostin, K.Hitomi // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.146-150. - Bibliogr.:20.

http://dx.doi.org/10.1016/j.nima.2018.03.053

106. Сторчак, В.Г. Магнитный силицен - материал электроники будущего / В.Г.Сторчак // В мире науки. – 2018. – №7. – с.102-107.

https://sciam.ru/articles/details/magnitnyj-siliczen-material-elektroniki-budushhego

С 344.4а - Методы приготовления мишеней

107. Devi, K.R. Fabrication of 121Sb Isotopic Targets for the Study of Nuclear High Spin Features / K.R.Devi, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.35-38. - Bibliogr.:21.

http://dx.doi.org/10.1016/j.nima.2018.03.031

С 345 - Ускорители заряженных частиц

108. Boscolo, M. Muons Cooled for Action / M.Boscolo, [et al.] // CERN Courier. – 2018. – Vol.58, No.6. – p.19-23.

https://cerncourier.com/muons-cooled-for-action/

109. Gourlay, S.A. Superconducting Accelerator Magnet Technology in the 21st Century: A New Paradigm on the Horizon? / S.A.Gourlay // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.124-137. - Bibliogr.:71.

http://dx.doi.org/10.1016/j.nima.2018.03.004

110. Semsang, N. Low-Energy N-Ion Beam Biotechnology Application in the Induction of Thai Jasmine Rice Mutant with Improved Seed Storability / N.Semsang, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.425. – p.32-37. - Bibliogr.:38.

http://dx.doi.org/10.1016/j.nimb.2018.04.007

С 346 - Элементарные частицы

111. Banerjee, D. Search for Vector Mediator of Dark Matter Production in Invisible Decay Mode / D.Banerjee, V.N.Frolov, V.A.Kramarenko, V.Lysan, V.A.Matveev, D.V.Peshekhonov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.072002. - Bibliogr.:76.

http://dx.doi.org/10.1103/PhysRevD.97.072002

С 346.2 - Нуклоны и антинуклоны

112. Aaboud, M. Evidence for the Associated Production of the Higgs Boson ant a Top Quark Pair with the ATLAS Detector / M.Aaboud, F.Ahmadov, I.N.Aleksandrov, V.A.Bednyakov, I.R.Boyko, I.A.Budagov, G.A.Chelkov, A.Cheplakov, M.V.Chizhov, D.V.Dedovich, M.Demichev, A.Gongadze, M.I.Gostkin, N.Huseynov, N.Javadov, S.N.Karpov, Z.M.Karpova, E.Khramov, U.Kruchonak, V.Kukhtin, E.Ladygin, V.Lyubushkin, M.Mineev, V.D.Peshekhonov, E.Plotnikova, I.N.Potrap, N.A.Rusakovich, R.Sadykov, A.Sapronov, M.Shiyakova, L.Simic, A.Soloshenko, S.Turchikhin, V.B.Vinogradov, I.Yeletskikh, A.Zhemchugov, N.I.Zimine, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.072003. - Bibliogr.:109.

http://dx.doi.org/10.1103/PhysRevD.97.072003

113. Aaboud, M. Search for Electroweak Production of Supersymmetric States in Scenarios with Compressed Mass Spectra at s=13 TeV with the ATLAS Detector / M.Aaboud, F.Ahmadov, I.N.Aleksandrov, V.A.Bednyakov, I.R.Boyko, I.A.Budagov, G.A.Chelkov, A.Cheplakov, M.V.Chizhov, D.V.Dedovich, M.Demichev, A.Gongadze, M.I.Gostkin, N.Huseynov, N.Javadov, S.N.Karpov, Z.M.Karpova, E.Khramov, U.Kruchonak, V.Kukhtin, E.Ladygin, V.Lyubushkin, M.Mineev, V.D.Peshekhonov, E.Plotnikova, I.N.Potrap, N.A.Rusakovich, R.Sadykov, A.Sapronov, M.Shiyakova, L.Simic, A.Soloshenko, S.Turchikhin, V.B.Vinogradov, I.Yeletskikh, A.Zhemchugov, N.I.Zimine, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.052010. - Bibliogr.:124.

http://dx.doi.org/10.1103/PhysRevD.97.052010

114. Aaboud, M. Search for Long-Lived, Massive Particles in Events with Displaced Vertices and Missing Transverse Momentum in s=13 TeV pp Collisions with the ATLAS Detector / M.Aaboud, F.Ahmadov, I.N.Aleksandrov, V.A.Bednyakov, I.R.Boyko, I.A.Budagov, G.A.Chelkov, A.Cheplakov, M.V.Chizhov, D.V.Dedovich, M.Demichev, A.Gongadze, M.I.Gostkin, N.Huseynov, N.Javadov, S.N.Karpov, Z.M.Karpova, E.Khramov, U.Kruchonak, V.Kukhtin, E.Ladygin, V.Lyubushkin, M.Mineev, V.D.Peshekhonov, E.Plotnikova, I.N.Potrap, N.A.Rusakovich, R.Sadykov, A.Sapronov, M.Shiyakova, A.Soloshenko, S.Turchikhin, V.B.Vinogradov, I.Yeletskikh, A.Zhemchugov, N.I.Zimine, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.052012. - Bibligor.:83.

http://dx.doi.org/10.1103/PhysRevD.97.052012

115. Aaboud, M. Search for the Standard Model Higgs Boson Produced in Association with Top Quarks and Decaying into a bb Pair in pp Collisions at s=13 TeV with the ATLAS Detector / M.Aaboud, F.Ahmadov, I.N.Aleksandrov, V.A.Bednyakov, I.R.Boyko, I.A.Budagov, G.A.Chelkov, A.Cheplakov, M.V.Chizhov, D.V.Dedovich, M.Demichev, A.Gongadze, M.I.Gostkin, N.Huseynov, N.Javadov, S.N.Karpov, Z.M.Karpova, E.Khramov, U.Kruchonak, V.Kukhtin, E.Ladygin, V.Lyubushkin, M.Mineev, V.D.Peshekhonov, E.Plotnikova, I.N.Potrap, N.A.Rusakovich, R.Sadykov, A.Sapronov, M.Shiyakova, L.Simic, A.Soloshenko, S.Turchikhin, V.B.Vinogradov, I.Yeletskikh, A.Zhemchugov, N.I.Zimine, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.072016. - Bibliogr.:102.

http://dx.doi.org/10.1103/PhysRevD.97.072016

116. Abdulov, N.A. Inclusive Higgs Boson Production at the LHC in the k T -Factorization Approach / N.A.Abdulov, A.V.Lipatov, M.A.Malyshev // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.054017. - Bibliogr.:80.

http://dx.doi.org/10.1103/PhysRevD.97.054017

117. Sirunyan, A.M. Measurement of the b Polarization and Angular Parameters in b J/ Decays from pp Collisions at s=7 and 8 TeV / A.M.Sirunyan, M.Finger, M.Finger Jr., I.Golutvin, V.Karjavin, I.Kashunin, V.Korenkov, G.Kozlov, A.Lanev, A.Malakhov, V.Matveev, V.V.Mitsyn, P.Moisenz, V.Palichik, V.Perelygin, S.Shmatov, N.Skatchkov, V.Smirnov, V.Trofimov, Z.Tsamalaidze, B.S.Yuldashev, A.Zarubin, V.Zhiltsov, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.072010. - Bibliogr.:31.

http://dx.doi.org/10.1103/PhysRevD.97.072010

118. Sirunyan, A.M. Search for Massive Resonances Decaying into WW, WZ, ZZ, qW, and qZ with Dijet Final States at s=13 TeV / A.M.Sirunyan, S.Afanasiev, P.Bunin, M.Finger, M.Finger Jr., M.Gavrilenko, I.Golutvin, I.Gorbunov, A.Kamenev, V.Karjavin, A.Lanev, A.Malakhov, V.Matveev, V.Palichik, V.Perelygin, S.Shmatov, S.Shulha, N.Skatchkov, V.Smirnov, Z.Tsamalaidze, N.Voytishin, A.Zarubin, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.072006. - Bibliogr.:86.

http://dx.doi.org/10.1103/PhysRevD.97.072006

119. Sirunyan, A.M. Search for Vectorlike Light-Flavor Quark Partners in Proton-Proton Collisions at s=8 TeV / A.M.Sirunyan, S.Afanasiev, P.Bunin, M.Finger, M.Finger Jr., M.Gavrilenko, I.Golutvin, I.Gorbunov, A.Kamenev, V.Karjavin, A.Khvedelidze, A.Lanev, A.Malakhov, V.Matveev, V.Palichik, V.Perelygin, S.Shmatov, S.Shulha, N.Skatchkov, V.Smirnov, Z.Tsamalaidze, N.Voytishin, A.Zarubin, [a.o.] // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – p.072008. - Bibliogr.:54.

http://dx.doi.org/10.1103/PhysRevD.97.072008

С 346.6 - Резонансы и новые частицы

120. Fleischer, R. Heavy-Flavour Highlights from Beauty 2018 / R.Fleischer, [et al.] // CERN Courier. – 2018. – Vol.58, No.6. – p.39.

https://cerncourier.com/faces-and-places-139/

121. Tran, C.T. Implications of New Physics in the Decays B c (J/, c ) / C.T.Tran, M.A.Ivanov, J.G.Korner, P.Santorelli // Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – p.054014. - Bibliogr.:65.

http://dx.doi.org/10.1103/PhysRevD.97.054014

С 348 - Ядерные реакторы. Реакторостроение

122. Jelea, A. Molecular Dynamics Modeling of Helium Bubbles in Austenitic Steels / A.Jelea // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.425. – p.50-54. - Bibliogr.:42.

http://dx.doi.org/10.1016/j.nimb.2018.04.008

С 349 - Дозиметрия и физика защиты

123. Elashmawy, M. Study of Constraints in Using Household NaCl Salt for Retrospective Dosimetry / M.Elashmawy // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.49-61. - Bibliogr.:50.

http://dx.doi.org/10.1016/j.nimb.2018.03.016

124. Starkey, M.J. APD Rise Time Measurements for 50-300-keV Ions / M.J.Starkey, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1277-1284. - Bibliogr.:20.

http://dx.doi.org/10.1109/TNS.2018.2831601

125. Гончаров, С.Ф. Проблемы обеспечения радиационной безопасности населения при радиационных авариях / С.Ф.Гончаров, Г.М.Аветисов // Медицинская радиология и радиационная безопасность. – 2018. – Т.63, №3. – с.74-82. - Библиогр.:28.

http://medradiol.ru/journal_medradiol/abstracts/2018/3/74_Goncharov.pdf

С 349 д - Биологическое действие излучений

126. Beheshti, A. NASA GeneLab Project: Bridging Space Radiation Omics with Ground Studies / A.Beheshti, [et al.] // Radiation Research. – 2018. – Vol.189, No.6. – p.553-559. - Bibliogr.:51.

http://dx.doi.org/10.1667/RR15062.1

127. Григорьев, Ю.Г. От электромагнитного смога до электромагнитного хаоса. К оценке опасности мобильной связи для здоровья населения / Ю.Г.Григорьев // Медицинская радиология и радиационная безопасность. – 2018. – Т.63, №3. – с.28-33. - Библиогр.:17.

http://medradiol.ru/journal_medradiol/abstracts/2018/3/28_Grigoriev.pdf

128. Демин, В.Ф. Проблемы установления зависимости доза – эффект для радиационного канцерогенеза / В.Ф.Демин, [и др.] // Медицинская радиология и радиационная безопасность. – 2018. – Т.63, №3. – с.19-27. - Библиогр.:24.

http://medradiol.ru/journal_medradiol/abstracts/2018/3/19_Demin.pdf

129. Мосеева, М.Б. Показатели заболеваемости и смертности от цереброваскулярных заболеваний в когорте работников, подвергшихся профессиональному облучению / М.Б.Мосеева, [и др.] // Медицинская радиология и радиационная безопасность. – 2018. – Т.63, №3. – с.5-11. - Библиогр.:18.

http://medradiol.ru/journal_medradiol/abstracts/2018/3/5_Moseeva.pdf

С 349.1 - Действие излучения на материалы

130. Akturk, A. Terrestrial Neutron-Induced Failures in Silicon Carbide Power MOSFETs and Diodes / A.Akturk, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1248-1254. - Bibliogr.:34.

http://dx.doi.org/10.1109/TNS.2018.2833741

131. Ali, M.A. 3 MeV Proton Irradiation Effects on Surface, Structural, Field Emission and Electrical Properties of Brass / M.A.Ali, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.7-15. - Bibliogr.:39.

http://dx.doi.org/10.1016/j.nimb.2018.03.004

132. Bee, S.-T. Study of Montmorillonite Nanoparticles and Electron Beam Irradiation Interaction of Ethylene Vinyl Acetate (EVA)/De-Vulcanized Waste Rubber Thermoplastic Composites / S.-T.Bee, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.97-110. - Bibliogr.:48.

http://dx.doi.org/10.1016/j.nimb.2018.03.013

133. Li, M. A Molecular Dynamics Study of Helium Bombardments on Tungsten Nanoparticles / M.Li, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.425. – p.43-49. - Bibliogr.:26.

http://dx.doi.org/10.1016/j.nimb.2018.04.016

134. Li, X. Hydrogen Soaking, Displacement Damage Effects, and Charge Yield in Gated Lateral Bipolar Junction Transistors / X.Li, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1271-1276. - Bibliogr.:40.

http://dx.doi.org/10.1109/TNS.2018.2837032

135. Liang, C.D. Defects and Low-Frequency Noise in Irradiated Black Phosphorus MOSFETs with HfO 2 Gate Dielectrics / C.D.Liang, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1227-1238. - Bibliogr.:76.

http://dx.doi.org/10.1109/TNS.2018.2828080

136. Liang, W. Mechanical Properties and Structure Evolution of Single-Crystalline Silicon Irradiated by 1 MeV Au+ and Cu+ Ions / W.Liang, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.75-81. - Bibliogr.:27.

http://dx.doi.org/10.1016/j.nimb.2018.03.014

137. Petrov, Yu.V. Helium Ion Beam Induced Electron Emission from Insulating Silicon Nitride Films Under Charging Conditions / Yu.V.Petrov, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.425. – p.11-17. - Bibliogr.:27.

http://dx.doi.org/10.1016/j.nimb.2018.04.001

138. Raouafi, A. Effect of Gamma Irradiation on the Color, Structure and Morphology of Nickel-Doped Polyvinyl Alcohol Films: Alternative Use as Dosimeter or Irradiation Indicator / A.Raouafi, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.425. – p.4-10. - Bibliogr.:31.

http://dx.doi.org/10.1016/j.nimb.2018.03.034

139. Singh, A.K. Field Emission and Explosive Electron Emission Process in Focused Ion Beam Fabricated Platinum and Tungsten Three-Dimensional Overhanging Nanostructure / A.K.Singh // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.425. – p.26-31. - Bibliogr.:34.

http://dx.doi.org/10.1016/j.nimb.2018.04.004

140. Uemura, T. Technology Scaling Trend of Soft Error Rate in Flip-Flops in 1 x nm Bulk FinFET Technology / T.Uemura, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1255-1263. - Bibliogr.:28.

http://dx.doi.org/10.1109/TNS.2018.2833875

141. Wang, Z. Fixed Pattern Noise and Temporal Noise Degradation Induced by Radiation Effects in Pinned Photodiode CMOS Image Sensors / Z.Wang, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1264-1270. - Bibliogr.:24.

http://dx.doi.org/10.1109/TNS.2018.2837015

С 353 - Физика плазмы

142. Dornheim, T. The Uniform Electron Gas at Warm Dense Matter Conditions / T.Dornheim, [et al.] // Physics Reports. – 2018. – Vol.744. – p.1-86. - Bibliogr.:402.

http://dx.doi.org/10.1016/j.physrep.2018.04.001

143. Xu, X. Systematic Implementation of Spectral CT with a Photon Counting Detector for Liquid Security Inspection / X.Xu, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – p.99-108. - Bibliogr.:26.

http://dx.doi.org/10.1016/j.nima.2018.03.011

С 36 - Физика твердого тела

144. Soto-Garrido, R. Electronic Transport in Torsional Strained Weyl Semimetals / R.Soto-Garrido, E.Munoz // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.195302. - Bibliogr.:24.

http://dx.doi.org/10.1088/1361-648X/aaba07

145. Yilmaz, D. Effect of an External Magnetic Field on the Mass Attenuation Coefficients of p-Si and n-Si / D.Yilmaz, P.Onder // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.72-74. - Bibliogr.:15.

http://dx.doi.org/10.1016/j.nimb.2018.03.009

146. Зуев, Л.Б. Корреляция характеристик макролокализованной пластической деформации и параметров электронной структуры металлов / Л.Б.Зуев, [и др.] // Журнал технической физики. Письма. – 2018. – Т.44, №13. – с.75-79. - Библиогр.:12.

https://journals.ioffe.ru/articles/viewPDF/46330

С 37 - Оптика

147. Беляев, И.А. Спектроскопия кавитирующей жидкости в оптическом и рентгеновском диапазоне / И.А.Беляев, [и др.] // Оптика и спектроскопия. – 2018. – Т.125, №1. – с.39-45. - Библиогр.:20.

https://journals.ioffe.ru/articles/viewPDF/46264

148. Коннов, К.А. Запись и визуализация волоконных решеток показателя преломления с наклонными штрихами / К.А.Коннов, [и др.] // Оптика и спектроскопия. – 2018. – Т.125, №1. – с.51-56. - Библиогр.:22.

https://journals.ioffe.ru/articles/viewPDF/46266

С 393 и8 - Джозефсоновские сети

149. Margaris, I. Current Phase Relation from Graphs and Diagrams and Application to Thick Ferromagnetic Josephson Junctions / I.Margaris, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.195303. - Bibliogr.:48.

http://dx.doi.org/10.1088/1361-648X/aaba04

С 44 - Аналитическая химия

150. Zhou, P. Authentication of Two Samples of Ancient Chinese Coins with Component Element Depth Analysis by Confocal 3D XRF / P.Zhou, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – p.37-41. - Bibliogr.:17.

http://dx.doi.org/10.1016/j.nimb.2018.03.007

С 63 - Астрофизика

151. Финкбайнер, Э. Вестники с небес / Э.Финкбайнер // В мире науки. – 2018. – №7. – с.14-21.

https://sciam.ru/articles/details/vestniki-s-nebes

Ц 841 - Электронные цифровые вычислительные машины

152. Tosson, A.M.S. Proposing a Solution for Single-Event Upset in 1T1R RRAM Memory Arrays / A.M.S.Tosson, [et al.] // IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – p.1239-1247. - Bibliogr.:35.

http://dx.doi.org/10.1109/TNS.2018.2830791

Ц 849 - Искусственный интеллект. Теория и практика

153. Gleyzer, S. The Rise of Deep Learning / S.Gleyzer, [et al.] // CERN Courier. – 2018. – Vol.58, No.6. – p.31-34.

https://cerncourier.com/the-rise-of-deep-learning/

154. Ustyuzhanin, A. Learning Machine Learning / A.Ustyuzhanin // CERN Courier. – 2018. – Vol.58, No.6. – p.24-25.

https://cerncourier.com/learning-machine-learning/

28.0 - Биология

155. Eckers, J.C. Identity Crisis – Rigor and Reproducibility in Human Cell Lines / J.C.Eckers, [et al.] // Radiation Research. – 2018. – Vol.189, No.6. – p.551-552. - Bibliogr.:17.

http://dx.doi.org/10.1667/RR15086.1

156. Krishnan, T.V.S. Thermal and Active Fluctuations of a Compressible Bilayer Vesicle / T.V.S.Krishnan, [et al.] // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.17. – p.175101. - Bibliogr.:46.

http://dx.doi.org/10.1088/1361-648X/aab6c7

157. Pathak, A.K. Effect of pH on the Hinge Region of Influenza Viral Protein: a Combined Constant pH and Well-Tempered Molecular Dynamics Study / A.K.Pathak // Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – p.195101. - Bibliogr.:89.

http://dx.doi.org/10.1088/1361-648X/aab98c

158. Tschirhart, H. Analytical Results for a Stochastic Model of Gene Expression with Arbitrary Partitioning of Proteins / H.Tschirhart, T.Platini // Journal of Physics A. – 2018. – Vol.51, No.19. – p.195601. - Bibliogr.:63.

http://dx.doi.org/10.1088/1751-8121/aab968

159. Вонг, К. Наш родственник Нео / К.Вонг // В мире науки. – 2018. – №7. – с.124-125.

https://sciam.ru/articles/details/nash-rodstvennik-neo

160. Горелик, В.С. Спектры фотолюминесценции в поликристаллах хирально чистых и рацемической фаз триптофана / В.С.Горелик, М.Ф.Умаров // Оптика и спектроскопия. – 2018. – Т.125, №1. – с.137-140. - Библиогр.:21.

https://journals.ioffe.ru/articles/viewPDF/46280

161. Джагаров, Б.М. Фотоиндуцированный разрыв связи Fe-O 2 в гемоглобине: квантовый выход диссоциации, возбужденные электронные состояния и релаксационные безызлучательные процессы / Б.М.Джагаров, [и др.] // Оптика и спектроскопия. – 2018. – Т.125, №1. – с.121-127. - Библиогр.:43.

https://journals.ioffe.ru/articles/viewPDF/46277

162. Лысенко, С.А. Коррекция флуоресцентных изображений биотканей на эффекты поглощения и рассеяния в них света / С.А.Лысенко // Оптика и спектроскопия. – 2018. – Т.125, №1. – с.111-120. - Библиогр.:42.

https://journals.ioffe.ru/articles/viewPDF/46276

163. Морозов, В.Н. Наноразмерные оксиды тантала, гафния и церия для монохроматических пучков фотонов и брахитерапии / В.Н.Морозов, [и др.] // Оптика и спектроскопия. – 2018. – Т.125, №1. – с.101-104. - Библиогр.:11.

https://journals.ioffe.ru/articles/viewPDF/46274

164. Фомичева, К.А. Особенности построения люминесцентного микроскопа для изучения эпителио-мезенхимальной трансформации клеток in Vitro / К.А.Фомичева, [и др.] // Оптика и спектроскопия. – 2018. – Т.125, №1. – с.129-136. - Библиогр.:17.

https://journals.ioffe.ru/articles/viewPDF/46279

28.08 - Экология

165. Buchachenko, A.L. Magnetic Isotopes as a Means to Elucidate Earth and Environmental Chemistry / A.L.Buchachenko // Успехи химии. – 2018. – Т.87, №8. – p.727-740. - Bibliogr.:92.

http://dx.doi.org/10.1070/RCR4818

СПИСОК ПРОСМОТРЕННЫХ ЖУРНАЛОВ


1. CERN Courier. – 2018. – Vol.58, No.6. – P.1-50.

2. IEEE Transactions on Nuclear Science. – 2018. – Vol.65, No.6. – P.1227-1330.

3. Journal of Physics A. – 2018. – Vol.51, No.19. – P.195001-199601.

4. Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.17. – P.170301-179501.

5. Journal of Physics: Condensed Matter. – 2018. – Vol.30, No.19. – P.194001-195901.

6. Nuclear Data Sheets. – 2018. – Vol.148. – P.1-420.

7. Nuclear Data Sheets. – 2018. – Vol.150. – P.1-364.

8. Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.893. – P.1-164.

9. Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.423. – P.1-110.

10. Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.424. – P.1-56.

11. Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.425. – P.1-62.

12. Physical Review D [Electronic resource]. – 2018. – Vol.97, No.4. – Electronic journal. - Title from the title screen.

13. Physical Review D [Electronic resource]. – 2018. – Vol.97, No.5. – Electronic journal. - Title from the title screen.

14. Physical Review D [Electronic resource]. – 2018. – Vol.97, No.7. – Electronic journal. - Title from the title screen.

15. Physical Review D [Electronic resource]. – 2018. – Vol.97, No.8. – Electronic journal. - Title from the title screen.

16. Physics Reports. – 2018. – Vol.741. – P.1-90.

17. Physics Reports. – 2018. – Vol.742. – P.1-122.

18. Physics Reports. – 2018. – Vol.744. – P.1-86.

19. Radiation Research. – 2018. – Vol.189, No.6. – P.551-668.

20. В мире науки. – 2018. – №7. – С.1-128.

21. Журнал технической физики. Письма. – 2018. – Т.44, №13. – С.1-112.

22. Известия высших учебных заведений. Физика. – 2018. – Т.61, №7. – С.1-163.

23. Медицинская радиология и радиационная безопасность. – 2018. – Т.63, №3. – С.1-88.

24. Оптика и спектроскопия. – 2018. – Т.125, №1. – С.1-144.

25. Успехи химии. – 2018. – Т.87, №8. – С.727-820.


19