Информационный бюллетень «Статьи» № 49

10.12.2018


С 133 - Дифференциальные и интегральные уравнения

1. Nandy, S. Periodically Driven Integrable Systems with Long-Range Pair Potentials / S.Nandy, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.33. – p.334002. - Bibliogr.:49.

http://dx.doi.org/10.1088/1751-8121/aaced6

С 15 - Теория вероятностей и математическая статистика

2. Du, W. Metaheuristic Optimization-Based Identification of Fractional-Order Systems Under Stable Distribution Noises / W.Du, [et al.] // Physics Letters A. – 2018. – Vol.382, No.34. – p.2313-2320. - Bibliogr.:38.

http://dx.doi.org/10.1016/j.physleta.2018.05.046

С 17 и - Математическая кибернетика

3. Dmitrasinovic, V. Linear Stability of Periodic Three-Body Orbits with Zero Angular Momentum and Topological Dependence of Kepler's Third Law: a Numerical Test / V.Dmitrasinovic, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315101. - Bibliogr.:51.

http://dx.doi.org/10.1088/1751-8121/aaca41

С 3 - Физика

4. Abbott, A. Max Planck Bullying Controversy Intensifies / A.Abbott // Nature. – 2018. – Vol.559, No.7713. – p.159-160.

http://dx.doi.org/10.1038/d41586-018-05634-8

5. Coleman, P. David Pines (1924–2018) / P.Coleman, L.Greene // Nature. – 2018. – Vol.560, No.7719. – p.433.

http://dx.doi.org/10.1038/d41586-018-05987-0

6. Francis, M.R. Studying Impossible Systems / M.R.Francis // Physics World. – 2018. – Vol.31, No.8. – p.37-40.


7. James, F.A.J.L. The Legacies of the Royal Institution / F.A.J.L.James // Physics Today. – 2018. – Vol.71, No.8. – p.36-43. - Bibliogr.:18.

https://doi.org/10.1063/PT.3.3996

8. Page, D.N. Stephen William Hawking (8.01.1942 - 14.03.2018) / D.N.Page // Physics Today. – 2018. – Vol.71, No.8. – p.60.

https://doi.org/10.1063/PT.3.4003

9. Quinn, H. Burton Richter (1931–2018) / H.Quinn // Nature. – 2018. – Vol.560, No.7720. – p.554.

http://dx.doi.org/10.1038/d41586-018-06036-6

10. Комаров, С.М. Мгновения Будкера / С.М.Комаров // Химия и жизнь. – 2018. – №9. – с.14-15.

С 321 - Классическая механика

11. Khan, M. Simultaneous Investigation of MHD and Convective Phenomena on Time-Dependent Flow of Carreau Nanofluid with Variable Properties: Dual Solutions / M.Khan, [et al.] // Physics Letters A. – 2018. – Vol.382, No.34. – p.2334-2342. - Bibliogr.:44.

http://dx.doi.org/10.1016/j.physleta.2018.05.033

С 322 - Теория относительности

12. Agnes, P. Low-Mass Dark Matter Search with the DarkSide-50 Experiment / P.Agnes, K.Fomenko, O.Gorchakov, D.Korablev, O.Samoylov, A.Sheshukov, O.Smirnov, A.Sotnikov, A.Vishneva, [a.o.] // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.8. – p.081307. - Bibliogr.:77.

http://dx.doi.org/10.1103/PhysRevLett.121.081307

13. Ciaglia, F.M. A Pedagogical Intrinsic Approach to Relative Entropies as Potential Functions of Quantum Metrics: The q–z Family / F.M.Ciaglia, [et al.] // Annals of Physics. – 2018. – Vol.395. – p.238-274. - Bibliogr.:45.

http://dx.doi.org/10.1016/j.aop.2018.05.015

14. Damone, L. 7Be(n,p)7Li Reaction and the Cosmological Lithium Problem: Measurement of the Cross Section in a Wide Energy Range at n_TOF at CERN / L.Damone, W.Furman, P.Sedyshev, [a.o.] // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.4. – p.042701. - Bibliogr.:34.

http://dx.doi.org/10.1103/PhysRevLett.121.042701

15. Grove, T.T. Using a Shoebox Spectrograph to Investigate the Differences between Reflection and Emission / T.T.Grove, [et al.] // American Journal of Physics. – 2018. – Vol.86, No.8. – p.594-601. - Bibliogr.:22.

http://dx.doi.org/10.1119/1.5045205

16. Maurya, S.K. A Generalized Family of Anisotropic Compact Object in General Relativity / S.K.Maurya, [et al.] // Annals of Physics. – 2018. – Vol.395. – p.152-169. - Bibliogr.:39.

http://dx.doi.org/10.1016/j.aop.2018.05.012

17. Melia, F. The Apparent (Gravitational) Horizon in Cosmology / F.Melia // American Journal of Physics. – 2018. – Vol.86, No.8. – p.585-593. - Bibliogr.:56.

http://dx.doi.org/10.1119/1.5045333

18. Micheli, M. Non-Gravitational Acceleration in the Trajectory of 1I/2017 U1 (‘Oumuamua) / M.Micheli, [et al.] // Nature. – 2018. – Vol.559, No.7713. – p.223-226. - Bibliogr.:30.

http://dx.doi.org/10.1038/s41586-018-0254-4

19. Naji, J. Strong Gravitational Lensing by the R-Charged Non-Extremal Black Hole / J.Naji // Annals of Physics. – 2018. – Vol.395. – p.112-126. - Bibliogr.:54.

http://dx.doi.org/10.1016/j.aop.2018.05.011

20. Rawlik, M. A Simple Method of Coil Design / M.Rawlik, [et al.] // American Journal of Physics. – 2018. – Vol.86, No.8. – p.602-608. - Bibliogr.:11.

http://dx.doi.org/10.1119/1.5042244

21. Saba, N. Noncommutative Universe and Chameleon Field Dynamics / N.Saba, M.Farhoudi // Annals of Physics. – 2018. – Vol.395. – p.1-14. - Bibliogr.:101.

http://dx.doi.org/10.1016/j.aop.2018.05.006

22. Schlamminger, S. Gravity Measured with Record Precision / S.Schlamminger // Nature. – 2018. – Vol.560, No.7720. – p.562-563. - Bibliogr.:11.

http://dx.doi.org/10.1038/d41586-018-06028-6

23. Silveira, F.A. Static and Spherically Symmetric Solutions in a Scenario with Quadratic Curvature Contribution / F.A.Silveira, [et al.] // Annals of Physics. – 2018. – Vol.395. – p.366-387. - Bibliogr.:54.

http://dx.doi.org/10.1016/j.aop.2018.04.013

24. Singh, B.P. Shadow of Schwarzschild–Tangherlini Black Holes / B.P.Singh, S.G.Ghosh // Annals of Physics. – 2018. – Vol.395. – p.127-137. - Bibliogr.:48.

http://dx.doi.org/10.1016/j.aop.2018.05.010

25. Trencevski, K. Complex Equations of Motion for a Body Under Gravitational Influence by Using a Nine-Parameter Space-Time Bundle with the Structural Group SO(3, C) / K.Trencevski, E.Celakoska // Annals of Physics. – 2018. – Vol.395. – p.15-25. - Bibliogr.:14.

http://dx.doi.org/10.1016/j.aop.2018.05.005

С 323 - Квантовая механика

26. Bai, R. Condensates in Double-Well Potential with Synthetic Gauge Potentials and Vortex Seeding / R.Bai, [et al.] // Physics Letters A. – 2018. – Vol.382, No.34. – p.2376-2381. - Bibliogr.:46.

http://dx.doi.org/10.1016/j.physleta.2018.05.051

27. Bazeia, D. Novel Results for Kinklike Structures and Their Connections to Quantum Mechanics / D.Bazeia, [et al.] // Annals of Physics. – 2018. – Vol.395. – p.275-300. - Bibliogr.:40.

http://dx.doi.org/10.1016/j.aop.2018.05.006

28. Guan, K.-L. The Asymmetric Quantum Rabi Model and Generalised Poschl–Teller Potentials / K.-L.Guan, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315204. - Bibliogr.:29.

http://dx.doi.org/10.1088/1751-8121/aacb44

29. King, A.D. Observation of Topological Phenomena in a Programmable Lattice of 1,800 Qubits / A.D.King, [et al.] // Nature. – 2018. – Vol.560, No.7719. – p.458-460. - Bibliogr.:32.

http://dx.doi.org/10.1038/s41586-018-0410-x

30. Liang, H. Quantum Fisher Information for Unitary Parametrization Processes Governed by Arbitrary Lie Algebras / H.Liang, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.33. – p.335301. - Bibliogr.:53.

http://dx.doi.org/10.1088/1751-8121/aacb41

31. Roberts, P. A Classical Analogy for Quantum Band Formation / P.Roberts, [et al.] // American Journal of Physics. – 2018. – Vol.86, No.8. – p.609-615. - Bibliogr.:22.

http://dx.doi.org/10.1119/1.5045332

32. Sargolzahi, I. Reference State for Arbitrary U-Consistent Subspace / I.Sargolzahi // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315301. - Bibliogr.:17.

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

С 323 а - Фундаментальные вопросы квантовой механики. Скрытые параметры. Парадоксы. Теория измерений. Квантовые компьютеры

33. Bromley, T.R. Accessible Bounds for General Quantum Resources / T.R.Bromley, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.32. – p.325303. - Bibliogr.:74.

http://dx.doi.org/10.1088/1751-8121/aacb4a

34. Choudhury, S.L. A New Approach to the Generalization of Planck’s Law of Black-Body Radiation / S.L.Choudhury, R.K.Paul // Annals of Physics. – 2018. – Vol.395. – p.317-325. - Bibliogr.:14.

http://dx.doi.org/10.1016/j.aop.2018.06.004

35. Chu, S.-K. Maximally Entangled State and Bell’s Inequality in Qubits / S.-K.Chu, [et al.] // Annals of Physics. – 2018. – Vol.395. – p.183-195. - Bibliogr.:18.

http://dx.doi.org/10.1016/j.aop.2018.05.016

36. Levay, P. A Fermionic Code Related to the Exceptional Group E 8 / P.Levay, F.Holweck // Journal of Physics A. – 2018. – Vol.51, No.32. – p.325301. - Bibliogr.:14.

http://dx.doi.org/10.1088/1751-8121/aac192

37. Loran, F. Exact Solution of the Two-Dimensional Scattering Problem for a Class of -Function Potentials Supported on Subsets of a Line / F.Loran, A.Mostafazadeh // Journal of Physics A. – 2018. – Vol.51, No.33. – p.335302. - Bibliogr.:25.

http://dx.doi.org/10.1088/1751-8121/aaced0

38. Mannheim, P.D. Antilinearity Rather Than Hermiticity as a Guiding Principle for Quantum Theory / P.D.Mannheim // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315302. - Bibliogr.:45.

http://dx.doi.org/10.1088/1751-8121/aac035

39. Neven, A. The Quantum Separability Problem is a Simultaneous Hollowisation Matrix Analysis Problem / A.Neven, T.Bastin // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315305. - Bibliogr.:25.

http://dx.doi.org/10.1088/1751-8121/aacb93

40. Rosenblum, S. Fault-Tolerant Detection of a Quantum Error / S.Rosenblum, [et al.] // Science. – 2018. – Vol.361, No.6399. – p.266-270. - Bibliogr.:20.

http://dx.doi.org/10.1126/science.aat3996

41. Strange, P. Quantized Hamiltonian Curl Forces and Squeezed Light / P.Strange // Journal of Physics A. – 2018. – Vol.51, No.33. – p.335303. - Bibliogr.:25.

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

42. Trypogeorgos, D. Perpetual Emulation Threshold of PT-Symmetric Hamiltonians / D.Trypogeorgos, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.32. – p.325302. - Bibliogr.:35.

http://dx.doi.org/10.1088/1751-8121/aacc5e

43. Zhou, Z. Proof of the Atiyah–Singer Index Theorem by Canonical Quantum Mechanics / Z.Zhou, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315201. - Bibliogr.:34.

http://dx.doi.org/10.1088/1751-8121/aac546

С 323.1 - Релятивистские волновые уравнения. Уравнения типа Бете-Солпитера. Квазипотенциал

44. Reed, B.C. A Compact General Expression for Momentum Exchange in Elastic Collisions / B.C.Reed // American Journal of Physics. – 2018. – Vol.86, No.8. – p.622.

http://dx.doi.org/10.1119/1.5042753

45. Silenko, A.J. Relativistic Quantum Dynamics of Twisted Electron Beams in Arbitrary Electric and Magnetic Fields / A.J.Silenko, P.Zhang, L.Zou // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.4. – p.043202. - Bibliogr.:54.

http://dx.doi.org/10.1103/PhysRevLett.121.043202

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

46. Wilson, M. Two-Color Cavity QED Makes Its Debut / M.Wilson // Physics Today. – 2018. – Vol.71, No.8. – p.14-16. - Bibliogr.:2.

https://doi.org/10.1063/PT.3.3987

С 324.1г - Калибровочные теории поля. Классические и квантовые поля Янга-Миллса. Спонтанно- нарушенные симметрии. Модели Великого объединения

47. Alicki, R. Interaction of a Quantum Field with a Rotating Heat Bath / R.Alicki, A.Jenkins // Annals of Physics. – 2018. – Vol.395. – p.69-83. - Bibliogr.:43.

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

С 324.1е - Суперсимметричные теории. Супергравитация. Суперструны

48. Valtancoli, P. AdS Spacetime in Lorentz Covariant Gauges / P.Valtancoli // Annals of Physics. – 2018. – Vol.395. – p.63-68. - Bibliogr.:5.

http://dx.doi.org/10.1016/j.aop.2018.05.004

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

49. Ovgun, A. Quasinormal Modes and Greybody Factors of f(R) Gravity Minimally Coupled to a Cloud of Strings in 2 + 1 Dimensions / A.Ovgun, K.Jusufi // Annals of Physics. – 2018. – Vol.395. – p.138-151. - Bibliogr.:157.

http://dx.doi.org/10.1016/j.aop.2018.05.013

С 325 - Статистическая физика и термодинамика

50. Bressloff, P.C. Diffusion in an Age-Structured Randomly Switching Environment / P.C.Bressloff, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315001. - Bibliogr.:26.

http://dx.doi.org/10.1088/1751-8121/aaca7c

51. Harris, R. Phase Transitions in a Programmable Quantum Spin Glass Simulator / R.Harris, [et al.] // Science. – 2018. – Vol.361, No.6398. – p.162-165. - Bibliogr.:32.

http://dx.doi.org/10.1126/science.aat2025

С 325.1 - Точно решаемые и решеточные модели

52. Dimo, C. Quadratic Operator Relations and Bethe Equations for Spin-1/2 Richardson–Gaudin Models / C.Dimo, A.Faribault // Journal of Physics A. – 2018. – Vol.51, No.32. – p.325202. - Bibliogr.:33.

http://dx.doi.org/10.1088/1751-8121/aaccb4

53. Fu, W. Direct Linearisation of the Discrete-Time Two-Dimensional Toda Lattices / W.Fu // Journal of Physics A. – 2018. – Vol.51, No.33. – p.334001. - Bibliogr.:31.

http://dx.doi.org/10.1088/1751-8121/aace36

54. Goto, S.-I. Hessian–Information Geometric Formulation of Hamiltonian Systems and Generalized Toda's Dual Transform / S.-I.Goto, T.Wada // Journal of Physics A. – 2018. – Vol.51, No.32. – p.324001. - Bibliogr.:26.

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

55. Grekov, A. On R-Matrix Valued Lax Pairs for Calogero–Moser Models / A.Grekov, A.Zotov // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315202. - Bibliogr.:53.

http://dx.doi.org/10.1088/1751-8121/aac7b6

56. Suris, Y.B. Discrete Time Toda Systems / Y.B.Suris // Journal of Physics A. – 2018. – Vol.51, No.33. – p.333001. - Bibliogr.:p.62-64.

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

57. Turban, L. Two-Species Diffusion-Annihilation Process on the Fully-Connected Lattice: Probability Distributions and Extreme Value Statistics / L.Turban // Journal of Physics A. – 2018. – Vol.51, No.32. – p.325002. - Bibliogr.:41.

http://dx.doi.org/10.1088/1751-8121/aaccc1

58. Wang, B. On Moving Frames and Toda Lattices of BKP and CKP Types / B.Wang, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.32. – p.324002. - Bibliogr.:50.

http://dx.doi.org/10.1088/1751-8121/aac970

59. Yang, R. Ranking the Spreading Influence of Nodes in Complex Networks: An Extended Weighted Degree Centrality Based on a Remaining Minimum Degree Decomposition / R.Yang, [et al.] // Physics Letters A. – 2018. – Vol.382, No.34. – p.2361-2371. - Bibliogr.:48.

http://dx.doi.org/10.1016/j.physleta.2018.05.032

60. Yuanyuan, M. Quantum Inspired Evolutionary Algorithm for Community Detection in Complex Networks / M.Yuanyuan, L.Xiyu // Physics Letters A. – 2018. – Vol.382, No.34. – p.2305-2312. - Bibliogr.:56.

http://dx.doi.org/10.1016/j.physleta.2018.05.044

С 325.4 - Нелинейные системы. Хаос и синергетика. Фракталы

61. Ma, X. Pitchfork-Bifurcation-Delay-Induced Bursting Patterns with Complex Structures in a Parametrically Driven Jerk Circuit System / X.Ma, S.Cao // Journal of Physics A. – 2018. – Vol.51, No.33. – p.335101. - Bibliogr.:37.

http://dx.doi.org/10.1088/1751-8121/aace0d

62. Poppe, G. Computation of Minimum Action Paths of the Stochastic Nonlinear Schrodinger Equation with Dissipation / G.Poppe, T.Schafer // Journal of Physics A. – 2018. – Vol.51, No.33. – p.335102. - Bibliogr.:24.

http://dx.doi.org/10.1088/1751-8121/aacf7a

63. Russell, B. Control Landscapes for a Class of Non-Linear Dynamical Systems: Sufficient Conditions for the Absence of Traps / B.Russell, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.33. – p.335103. - Bibliogr.:72.

http://dx.doi.org/10.1088/1751-8121/aacc85

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

64. Ahn, S.J. Dirac Electrons in a Dodecagonal Graphene Quasicrystal / S.J.Ahn, [et al.] // Science. – 2018. – Vol.361, No.6404. – p.782-786. - Bibliogr.:54.

http://dx.doi.org/10.1126/science.aar8412

65. Gutierrez, C. Interaction-Driven Quantum Hall Wedding Cake–Like Structures in Graphene Quantum Dots / C.Gutierrez, [et al.] // Science. – 2018. – Vol.361, No.6404. – p.789-794. - Bibliogr.:31.

http://dx.doi.org/10.1126/science.aar2014

66. Hinrichsen, P.F. Combined Viscous and Dry Friction Damping of Oscillatory Motion / P.F.Hinrichsen, C.I.Larnder // American Journal of Physics. – 2018. – Vol.86, No.8. – p.577-584. - Bibliogr.:57.

http://dx.doi.org/10.1119/1.5034345

67. Hou, Q. Quasi-Invisible Thermal Cloak Based on Homogenous Materials / Q.Hou, [et al.] // Physics Letters A. – 2018. – Vol.382, No.34. – p.2382-2387. - Bibliogr.:34.

http://dx.doi.org/10.1016/j.physleta.2018.05.052

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

68. Altmann, Y. Quantum-Inspired Computational Imaging / Y.Altmann, [et al.] // Science. – 2018. – Vol.361, No.6403. – p.660.

http://dx.doi.org/10.1126/science.aat2298

69. Banerjee, M. Observation of Half-Integer Thermal Hall Conductance / M.Banerjee, [et al.] // Nature. – 2018. – Vol.559, No.7713. – p.205-210. - Bibliogr.:40.

http://dx.doi.org/10.1038/s41586-018-0184-1

70. Benatti, F. Quantum Spin Chain Dissipative Mean-Field Dynamics / F.Benatti, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.32. – p.325001. - Bibliogr.:31.

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

71. Cheben, P. Subwavelength Integrated Photonics / P.Cheben, [et al.] // Nature. – 2018. – Vol.560, No.7720. – p.565-572. - Bibliogr.:103.

http://dx.doi.org/10.1038/s41586-018-0421-7

72. Dwivedi, V. Phase Space Entanglement Spectrum / V.Dwivedi, V.Chua // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315304. - Bibliogr.:58.

http://dx.doi.org/10.1088/1751-8121/aacc4d

73. Fujii, K. Low-Energy Effective Field Theory of Superfluid 3He-B and Its Gyromagnetic and Hall Responses / K.Fujii, Y.Nishida // Annals of Physics. – 2018. – Vol.395. – p.170-182. - Bibliogr.:46.

http://dx.doi.org/10.1016/j.aop.2018.05.003

74. Hayashi, M. Asymptotic and Non-Asymptotic Analysis for a Hidden Markovian Process with a Quantum Hidden System / M.Hayashi, Y.Yoshida // Journal of Physics A. – 2018. – Vol.51, No.33. – p.335304. - Bibliogr.:37.

http://dx.doi.org/10.1088/1751-8121/aacde9

75. Hoffmann, S.E. Coherent States for Ladder Operators of General Order Related to Exceptional Orthogonal Polynomials / S.E.Hoffmann, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315203. - Bibliogr.:31.

http://dx.doi.org/10.1088/1751-8121/aacb3b

76. Kasahara, Y. Majorana Quantization and Half-Integer Thermal Quantum Hall Effect in a Kitaev Spin Liquid / Y.Kasahara, [et al.] // Nature. – 2018. – Vol.559, No.7713. – p.227-231. - Bibliogr.:32.

http://dx.doi.org/10.1038/s41586-018-0274-0

77. Keser, A.C. Analogue Stochastic Gravity in Strongly-Interacting Bose–Einstein Condensates / A.C.Keser, V.Galitski // Annals of Physics. – 2018. – Vol.395. – p.84-111. - Bibliogr.:54.

http://dx.doi.org/10.1016/j.aop.2018.05.009

78. Krinner, L. Spontaneous Emission of Matter Waves from a Tunable Open Quantum System / L.Krinner, [et al.] // Nature. – 2018. – Vol.559, No.7715. – p.589-592. - Bibliogr.:33.

http://dx.doi.org/10.1038/s41586-018-0348-z


79. Leo, N. Magnetoelectric Inversion of Domain Patterns / N.Leo, [et al.] // Nature. – 2018. – Vol.560, No.7719. – p.466-470. - Bibliogr.:23.

http://dx.doi.org/10.1038/s41586-018-0432-4

80. Li, X. Observation of Dicke Cooperativity in Magnetic Interactions / X.Li, [et al.] // Science. – 2018. – Vol.361, No.6404. – p.794-797. - Bibliogr.:26.

http://dx.doi.org/10.1126/science.aat5162

81. Mathea, T. Using Mixed Many-Body Particle States to Generate Exact PT-Symmetry in a Time-Dependent Four-Well System / T.Mathea, [et al.] // Journal of Physics A. – 2018. – Vol.51, No.31. – p.315303. - Bibliogr.:30.

http://dx.doi.org/10.1088/1751-8121/aacaa3

82. Ribeiro-Palau, R. Twistable Electronics with Dynamically Rotatable Heterostructures / R.Ribeiro-Palau, [et al.] // Science. – 2018. – Vol.361, No.6403. – p.690-693. - Bibliogr.:36.

http://dx.doi.org/10.1126/science.aat6981

83. Stutzer, S. Photonic Topological Anderson Insulators / S.Stutzer, [et al.] // Nature. – 2018. – Vol.560, No.7719. – p.461-465. - Bibliogr.:35.

http://dx.doi.org/10.1038/s41586-018-0418-2

84. Tang, H.-K. The Role of Electron-Electron Interactions in Two-Dimensional Dirac Fermions / H.-K.Tang, [et al.] // Science. – 2018. – Vol.361, No.6402. – p.570-574. - Bibliogr.:34.

http://dx.doi.org/10.1126/science.aao2934

85. Viennot, D. Schrodinger–Koopman Quasienergy States of Quantum Systems Driven by Classical Flow / D.Viennot, L.Aubourg // Journal of Physics A. – 2018. – Vol.51, No.33. – p.335201. - Bibliogr.:34.

http://dx.doi.org/10.1088/1751-8121/aaca45

86. Wieder, B.J. Wallpaper Fermions and the Nonsymmorphic Dirac Insulator / B.J.Wieder, [et al.] // Science. – 2018. – Vol.361, No.6399. – p.246-251. - Bibliogr.:59.

http://dx.doi.org/10.1126/science.aan2802

87. Wurtz, J. Cluster Truncated Wigner Approximation in Strongly Interacting Systems / J.Wurtz, [et al.] // Annals of Physics. – 2018. – Vol.395. – p.341-365. - Bibliogr.:27.

http://dx.doi.org/10.1016/j.aop.2018.06.001

С 332 - Электромагнитные взаимодействия

88. Avni, Y. Casimir Self-Stress in a Dielectric Sphere / Y.Avni, U.Leonhardt // Annals of Physics. – 2018. – Vol.395. – p.326-340. - Bibliogr.:44.

http://dx.doi.org/10.1016/j.aop.2018.06.002

89. Soh, C.M. Raman Scattering of Photons by Hydrogenlike Ions I: A Semirelativistic and Nondipole Approach / C.M.Soh, [et al.] // Annals of Physics. – 2018. – Vol.395. – p.196-218. - Bibliogr.:41.

http://dx.doi.org/10.1016/j.aop.2018.05.018

С 341 - Атомные ядра

90. Duer, M. Probing High-Momentum Protons and Neutrons in Neutron-Rich Nuclei / M.Duer, [et al.] // Nature. – 2018. – Vol.560, No.7720. – p.617-621. - Bibliogr.:29.

http://dx.doi.org/10.1038/s41586-018-0400-z

С 341 е - Ядерная астрофизика

91. Hoeijmakers, H.J. Atomic Iron and Titanium in the Atmosphere of the Exoplanet KELT-9b / H.J.Hoeijmakers, [et al.] // Nature. – 2018. – Vol.560, No.7719. – p.453-455. - Bibliogr.:17.

http://dx.doi.org/10.1038/s41586-018-0401-y

92. Noguchi, M. The Formation of Solar-Neighbourhood Stars in Two Generations Separated by 5 Billion Years / M.Noguchi // Nature. – 2018. – Vol.559, No.7715. – p.585-588. - Bibliogr.:30.

http://dx.doi.org/10.1038/s41586-018-0329-2

С 341.1 - Радиоактивность

93. Munson, J.M. Recoil-Ion Detection Efficiency for Complex Decays Studied Using the Beta-Decay Paul Trap / J.M.Munson, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.60-66. - Bibliogr.:29.

http://dx.doi.org/10.1016/j.nima.2018.04.063

С 341.1ж - Источники радиоактивных излучений. Источники нейтронов

94. Васильев, Д.А. Скандинавские нейтроны / Д.А.Васильев // Химия и жизнь. – 2018. – №9. – с.2-4.

С 341.2 - Свойства атомных ядер

95. Tarasov, O.B. Discovery of 60Ca and Implications for the Stability of 70Ca / O.B.Tarasov, D.S.Ahn, [a.o.] // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.2. – p.022501. - Bibliogr.:40.

http://dx.doi.org/10.1103/PhysRevLett.121.022501

С 343 - Ядерные реакции

96. Sirunyan, A.M. Elliptic Flow of Charm and Strange Hadrons in High-Multiplicity p + Pb Collisions at s NN =8.16 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, P.Moisenz, V.Palichik, V.Perelygin, S.Shmatov, S.Shulha, N.Skatchkov, V.Smirnov, Z.Tsamalaidze, N.Voytishin, A.Zarubin, [a.o.] // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.8. – p.082301. - Bibliogr.:63.

http://dx.doi.org/10.1103/PhysRevLett.121.082301

С 343 е - Ядерные реакции с тяжелыми ионами

97. Adamczyk, L. Beam Energy Dependence of Jet-Quenching Effects in Au+Au Collisions at s NN =7.7, 11.5, 14.5, 19.6, 27, 39, and 62.4 GeV / L.Adamczyk, G.Agakishiev, A.Aparin, G.S.Averichev, I.Bunzarov, N.Chankova-Bunzarova, T.G.Dedovich, L.G.Efimov, J.Fedorisin, P.Filip, A.Kechechyan, R.Lednicky, Y.Panebratsev, O.V.Rogachevskiy, E.Shahaliev, M.Tokarev, S.Vokal, [a.o.] // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.3. – p.032301. - Bibliogr.:51.

http://dx.doi.org/10.1103/PhysRevLett.121.032301

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

98. Assiro, R. Performance of the Diamond Active Target Prototype for the PADME Experiment at the DANE BTF / R.Assiro, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.105-110. - Bibliogr.:20.

http://dx.doi.org/10.1016/j.nima.2018.04.062

99. Denisov, D. Ultra-Fast Hadronic Calorimetry / D.Denisov // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.125-132. - Bibliogr.:17.

http://dx.doi.org/10.1016/j.nima.2018.05.003

100. Dupre, R. A Radial Time Projection Chamber for Detection in CLAS at JLab / R.Dupre, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.90-97. - Bibliogr.:17.

http://dx.doi.org/10.1016/j.nima.2018.04.052

101. Edwards, N.S. Neutron Sensitivity of 10B 4 C-Coated Aluminum Honeycomb Using a Single-Anode Wire, P-10 Continuous-Gas-Flow Proportional Counter / N.S.Edwards, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.85-89. - Bibliogr.:40.

http://dx.doi.org/10.1016/j.nima.2018.04.046

102. Kandemir, M. Simulation and Efficiency Studies of Optical Photon Transportation and Detection with Plastic Antineutrino Detector Modules / M.Kandemir, A.Cakir // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.30-39. - Bibliogr.:19.

http://dx.doi.org/10.1016/j.nima.2018.04.059

103. Kramberger, G. Radiation Hardness of Gallium Doped Low Gain Avalanche Detectors / G.Kramberger, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.53-59. - Bibliogr.:19.

http://dx.doi.org/10.1016/j.nima.2018.04.060

104. Morgan, K.M. Hot Science with Cool Sensors / K.M.Morgan // Physics Today. – 2018. – Vol.71, No.8. – p.28-34. - Bibliogr.:18.

https://doi.org/10.1063/PT.3.3995

105. Nemes, T. Generalized Equation for the Sum-Peak Method, Accounting for Random Coincidences / T.Nemes, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.11-14. - Bibliogr.:26.

http://dx.doi.org/10.1016/j.nima.2018.04.042

106. Rizzo, A. A Compact Time-Of-Flight Detector for Space Applications: The LIDAL System / A.Rizzo, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.98-104. - Bibliogr.:18.

http://dx.doi.org/10.1016/j.nima.2018.05.009

107. Sekiba, D. Development of High-Resolution ERDA with Double MCP System and Determination of Detection Limit for H and D / D.Sekiba, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.430. – p.6-10. - Bibliogr.:16.

http://dx.doi.org/10.1016/j.nimb.2018.05.043

108. Sibczynski, P. Non-Proportionality of GAGG:Ce Scintillators Down to 50 eV Electron Equivalent by Application of Alpha Particle Excitation / P.Sibczynski, A.Bezbakh, A.S.Fomichev, S.A.Krupko, A.V.Sabelnikov, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.24-29. - Bibliogr.:35.

http://dx.doi.org/10.1016/j.nima.2018.03.050

109. Sosa, C.S. Energy Resolution Experiments of Conical Organic Scintillators and a Comparison with Geant4 Simulations / C.S.Sosa, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.77-84. - Bibliogr.:26.

http://dx.doi.org/10.1016/j.nima.2018.04.058

110. Zamyatin, N.I. Neutron Beam Profilometer on the Base of Double- Sided Silicon Strip Detectors / N.I.Zamyatin, V.M.Bystritsky, Y.N.Kopach, F.A.Aliyev, D.N.Grozdanov, N.A.Fedorov, C.Hramko, I.N.Ruskov, V.R.Skoy, V.M.Slepnev, D.Wang, E.V.Zubarev // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.46-52. - Bibliogr.:8.

http://dx.doi.org/10.1016/j.nima.2018.04.031

111. Zhang, X. Study on the Large Area MCP-PMT Glass Radioactivity Reduction / X.Zhang, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.67-71. - Bibliogr.:14.

http://dx.doi.org/10.1016/j.nima.2018.05.008

112. Припачкин, Д.А. Влияние коллиматора на характеристики полупроводникового альфа-спектрометра при измерении радиоактивных аэрозолей / Д.А.Припачкин, [и др.] // Атомная энергия. – 2018. – Т.125, №2. – с.109-113. - Библиогр.:14.

https://doi.org/10.1007/s10512-018-0452-z

С 344.3 - Ядерная электроника

113. Gao, W. Radiation Hardness Test and Characterization of a Low-Noise Front-End Readout ASIC in 180 nm CMOS Technology for Space X-Ray Survey / W.Gao, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.117-124. - Bibliogr.:15.

http://dx.doi.org/10.1016/j.nima.2018.04.048

С 344.4б - Методы приготовления тонких пленок

114. El Marsi, M. Monte Carlo Simulations of MgO and Mg(OH) 2 Thin Films Sputtering Yields by Noble-Gas Ion Bombardment in Plasma Display Panel PDP / M.El Marsi, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.430. – p.72-78. - Bibliogr.:56.

http://dx.doi.org/10.1016/j.nimb.2018.05.046

115. Mai, M. Effect of Dielectric Layer on Ferroelectric Responses of P(VDF-TrFE) Thin Films / M.Mai, [et al.] // Physics Letters A. – 2018. – Vol.382, No.34. – p.2372-2375. - Bibliogr.:26.

http://dx.doi.org/10.1016/j.physleta.2018.05.049

116. Rihawy, M.S. Depth Profiling of Titanium Nitride Thin Films Deposited on Stainless Steel Utilizing Combined EBS and NRA Techniques / M.S.Rihawy, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.430. – p.64-71. - Bibliogr.:48.

http://dx.doi.org/10.1016/j.nimb.2018.06.012

С 345 - Ускорители заряженных частиц

117. Chen, R.J. A Method to Measure the Transition Energy t of the Isochronously Tuned Storage Ring / R.J.Chen, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.111-116. - Bibliogr.:51.

http://dx.doi.org/10.1016/j.nima.2018.04.056

118. Jing, C. Electron Acceleration Through Two Successive Electron Beam Driven Wakefield Acceleration Stages / C.Jing, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.72-76. - Bibliogr.:31.

http://dx.doi.org/10.1016/j.nima.2018.05.007

119. Liu, C. Optimization Methodology for the Global 10 Hz Orbit Feedback in RHIC / C.Liu, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.40-45. - Bibliogr.:15.

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

120. Rizzoglio, V. On the Accuracy of Monte Carlo Based Beam Dynamics Models for the Degrader in Proton Therapy Facilities / V.Rizzoglio, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.1-10. - Bibliogr.:32.

http://dx.doi.org/10.1016/j.nima.2018.04.057

121. Yoshimura, S. Identification of Fragment Ions Produced from Hexamethyldisilazane and Production of Low-Energy Mass-Selected Fragment Ion Beam / S.Yoshimura, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.430. – p.1-5. - Bibliogr.:31.

http://dx.doi.org/10.1016/j.nimb.2018.05.040

122. Комаров, С.М. Ускорение в Новосибирске / С.М.Комаров // Химия и жизнь. – 2018. – №9. – с.6-13. - Библиогр.:4.

С 345 о - Электронная и ионная оптика. Формирование и анализ пучков

123. Hu, Q. Simulation of Proton–Proton Elastic Scattering for the KOALA Recoil Detector / Q.Hu, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.133-138. - Bibliogr.:23.

http://dx.doi.org/10.1016/j.nima.2018.05.002

С 346 - Элементарные частицы

124. Ablikim, M. Observation of the Semileptonic Decay D0a 0 (980)-e+ e and Evidence D+a 0 (980)0e+ 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 Letters [Electronic resource]. – 2018. – Vol.121, No.8. – p.081802. - Bibliogr.:33.

http://dx.doi.org/10.1103/PhysRevLett.121.081802

125. Radovic, A. Machine Learning at the Energy and Intensity Frontiers of Particle Physics / A.Radovic, [et al.] // Nature. – 2018. – Vol.560, No.7716. – p.41-48. - Bibliogr.:101.

http://dx.doi.org/10.1038/s41586-018-0361-2

С 346.1 - Нейтрино

126. Aartsen, M.G. Multimessenger Observations of a Flaring Blazar Coincident with High-Energy Neutrino IceCube-170922A / M.G.Aartsen, [et al.] // Science. – 2018. – Vol.361, No.6398. – p.146.

http://dx.doi.org/10.1126/science.aat1378

127. Aartsen, M.G. Neutrino Emission from the Direction of the Blazar TXS 0506+056 Prior to the IceCube-170922A Alert / M.G.Aartsen, [et al.] // Science. – 2018. – Vol.361, No.6398. – p.147-151. - Bibliogr.:36.

http://dx.doi.org/10.1126/science.aat2890

С 346.2 - Нуклоны и антинуклоны

128. Aaboud, M. Measurement of the Soft-Drop Jet Mass 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 Letters [Electronic resource]. – 2018. – Vol.121, No.9. – p.092001. - Bibliogr.:62.

http://dx.doi.org/10.1103/PhysRevLett.121.092001

129. Aaboud, M. Search for Low-Mass Dijet Resonances Using Trigger-Level Jets with the ATLAS Detector in pp Collisions at s=13 TeV / 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 Letters [Electronic resource]. – 2018. – Vol.121, No.8. – p.081801. - Bibliogr.:43.

http://dx.doi.org/10.1103/PhysRevLett.121.081801

130. Adlarson, P. Isotensor Dibaryon in the pppp+- Reaction? / P.Adlarson, D.A.Kirillov, N.M.Piskunov, [a.o.] // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.5. – p.052001. - Bibliogr.:51.

http://dx.doi.org/10.1103/PhysRevLett.121.052001

131. Sirunyan, A.M. Constraining Gluon Distributions in Nuclei Using Dijets in Proton-Proton and Proton-Lead Collisions at s NN =5.02 TeV / A.M.Sirunyan, M.Finger, M.Finger Jr., A.Golunov, I.Golutvin, V.Karjavin, V.Korenkov, G.Kozlov, A.Lanev, A.Malakhov, V.Matveev, V.V.Mitsyn, P.Moisenz, V.Palichik, V.Perelygin, S.Shmatov, S.Shulga, V.Smirnov, V.Trofimov, Z.Tsamalaidze, B.S.Yuldashev, A.Zarubin, V.Zhiltsov, [a.o.] // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.6. – p.062002. - Bibliogr.:60.

http://dx.doi.org/10.1103/PhysRevLett.121.062002

132. Sirunyan, A.M. Observation of the b1 (3P) and b2 (3P) and Measurement of Their Masses / 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, P.Moisenz, V.Palichik, V.Perelygin, S.Shmatov, S.Shulha, N.Skatchkov, V.Smirnov, Z.Tsamalaidze, N.Voytishin, A.Zarubin, [a.o.] // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.9. – p.092002. - Bibliogr.:50.

http://dx.doi.org/10.1103/PhysRevLett.121.092002

С 346.5 - К-мезоны и гипероны

133. Ablikim, M. Measurement of the Absolute Branching Fraction of the Inclusive Decay + c +X / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.6. – p.062003. - Bibliogr.:34.

http://dx.doi.org/10.1103/PhysRevLett.121.062003

134. Ablikim, M. Observation of a0 0 (980)-f 0 (980) Mixing / M.Ablikim, O.Bakina, E.Boger, I.Boyko, G.Chelkov, D.Dedovich, I.Denysenko, Y.Nefedov, A.Sarantsev, A.Zhemchugov, [a.o.] // Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.2. – p.022001. - Bibliogr.:37.

http://dx.doi.org/10.1103/PhysRevLett.121.022001

С 347 - Космические лучи

135. Castelvecchi, D. Big Bang Telescope Finale is End of an Era in Cosmology / D.Castelvecchi // Nature. – 2018. – Vol.559, No.7715. – p.455-456.

http://dx.doi.org/10.1038/d41586-018-05788-5

136. Skuse, B. Meet the Ultras / B.Skuse // Physics World. – 2018. – Vol.31, No.8. – p.26-29.

С 348 - Ядерные реакторы. Реакторостроение

137. Wang, T. The Rise, Collapse, and Compaction of Mt. Mantap from the 3 September 2017 North Korean Nuclear Test / T.Wang, [et al.] // Science. – 2018. – Vol.361, No.6398. – p.166-170. - Bibliogr.:37.

http://dx.doi.org/10.1126/science.aar7230

138. Алеева, Т.Б. Контроль массы и равномерности распределения делящихся материалов в твэлах с уран-плутониевым нитридным топливом гамма-спектрометрическим методом / Т.Б.Алеева, [и др.] // Атомная энергия. – 2018. – Т.125, №2. – с.96-103. - Библиогр.:5.

https://doi.org/10.1007/s10512-018-0449-7

139. Гурович, Б.А. Механизмы изменения свойств материалов корпусов ВВЭР-440, -1000 в цикле облучение - восстановительный отжиг - облучение / Б.А.Гурович, [и др.] // Атомная энергия. – 2018. – Т.125, №2. – с.89-96. - Библиогр.:18.

https://doi.org/10.1007/s10512-018-0448-8

140. Суслов, И.Р. Комбинированный метод расчета защиты ЯЭУ / И.Р.Суслов, И.А.Лямцев // Атомная энергия. – 2018. – Т.125, №2. – с.74-78. - Библиогр.:10.

https://doi.org/10.1007/s10512-018-0445-y

141. Цибульский, В.Ф. Быстрые реакторы с умеренным воспроизводством и структура ядерной энергетики / В.Ф.Цибульский, Е.А.Андрианова // Атомная энергия. – 2018. – Т.125, №2. – с.71-74. - Библиогр.:5.

https://doi.org/10.1007/s10512-018-0444-z

С 349 - Дозиметрия и физика защиты

142. Jung, S. Low-Energy Electron Dose-Point Kernels and Radial Dose Distributions Around Gold Nanoparticles: Comparison between MCNP6.1, PENELOPE2014 and Geant4-DNA / S.Jung, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.430. – p.18-22. - Bibliogr.:21.

http://dx.doi.org/10.1016/j.nimb.2018.08.001

143. Kaya, S. FET-Based Radiation Sensors with Er 2 O 3 Gate Dielectric / S.Kaya, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.430. – p.36-41. - Bibliogr.:53.

http://dx.doi.org/10.1016/j.nimb.2018.06.007

144. Пропалова, О.И. Погрешность расчетов защиты линейных электронных ускорителей при использовании данных для моноэнергетических источников фотонов / О.И.Пропалова, [и др.] // Атомная энергия. – 2018. – Т.125, №2. – с.113-115. - Библиогр.:5.

https://doi.org/10.1007/s10512-018-0453-y

145. Собакин, П.И. Радон в поверхностных и подземных водах Эльконского урановорудного района в Южной Якутии / П.И.Собакин // Атомная энергия. – 2018. – Т.125, №2. – с.119-123. - Библиогр.:11.

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С 349 д - Биологическое действие излучений

146. Анофелес, С. Полоний и Арафат / С.Анофелес // Химия и жизнь. – 2018. – №9. – с.34-36.

С 349.1 - Действие излучения на материалы

147. Donegani, E.M. Study of Point- and Cluster-Defects in Radiation-Damaged Silicon / E.M.Donegani, [et al.] // Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – p.15-23. - Bibliogr.:17.

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148. Hu, P.P. Degradation in AlGaN/GaN HEMTs Irradiated with Swift Heavy Ions: Role of Latent Tracks / P.P.Hu, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.430. – p.59-63. - Bibliogr.:31.

http://dx.doi.org/10.1016/j.nimb.2018.06.011

149. Kushkina, K.D. Evolution of the Multi-Walled Carbon Nanotubes Structure with Increasing Fluence of He Ion Irradiation / K.D.Kushkina, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.430. – p.11-17. - Bibliogr.:35.

http://dx.doi.org/10.1016/jimb.2018.05.038

150. Wu, Y. The Degradation Behavior and Mechanism of Polytetrafluoroethylene Under Low Energy Proton Irradiation / Y.Wu, [et al.] // Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.430. – p.47-53. - Bibliogr.:45.

http://dx.doi.org/10.1016/j.nimb.2018.06.005

С 353 - Физика плазмы

151. Deka, M.K. Landau Degeneracy Effect on Ion Beam Driven Degenerate Magneto Plasma: Evolution of Hypersonic Soliton / M.K.Deka, A.N.Dev // Annals of Physics. – 2018. – Vol.395. – p.45-62. - Bibliogr.:66.

http://dx.doi.org/10.1016/j.aop.2018.05.008

152. Kramer, D. Will Doubling Magnetic Field Strength Halve the Time to Fusion Energy? / D.Kramer // Physics Today. – 2018. – Vol.71, No.8. – c.25-27.

https://doi.org/10.1063/PT.3.3994

С 393 и8 - Джозефсоновские сети

153. Afsaneh, E. Phase-Dependent Heat Current of Granular Josephson Junction for Different Geometries / E.Afsaneh, H.Yavari // Physics Letters A. – 2018. – Vol.382, No.34. – p.2388-2393. - Bibliogr.:59.

http://dx.doi.org/10.1016/j.physleta.2018.05.053

С 4 - Химия

154. Tuppan, S. Versatility of Electrochemically Grown Dendrites in the Undergraduate Laboratory / S.Tuppan, [et al.] // American Journal of Physics. – 2018. – Vol.86, No.8. – p.632-637. - Bibliogr.:22.

http://dx.doi.org/10.1119/1.5040499

С 413 - Радиохимия

155. Мотыляев, А. Полоний: факты и фактики / А.Мотыляев // Химия и жизнь. – 2018. – №9. – с.32-33.

С 63 - Астрофизика

156. Tabaki, K. The Gravitationally Unstable Gas Disk of a Starburst Galaxy 12 Billion Years Ago / K.Tabaki, [et al.] // Nature. – 2018. – Vol.560, No.7720. – p.613-616. - Bibliogr.:30.

http://dx.doi.org/10.1038/s41586-018-0443-1

Ц 76 - Источники питания радиотехнических устройств. Выпрямители, стабилизаторы, преобразователи

157. Delichte, S.D. Non-Radiative Mid-Range Wireless Power Transfer: An Experiment for Senior Physics Undergraduates / S.D.Delichte, [et al.] // American Journal of Physics. – 2018. – Vol.86, No.8. – p.623-632. - Bibliogr.:17.

http://dx.doi.org/10.1119/1.5037705

28.0 - Биология

158. Cuchet-Lourenco, D. Biallelic RIPK1 Mutations in Humans Cause Severe Immunodeficiency, Arthritis, and Intestinal Inflammation / D.Cuchet-Lourenco, [et al.] // Science. – 2018. – Vol.361, No.6404. – p.810-813. - Bibliogr.:30.

http://dx.doi.org/10.1126/science.aar2641

159. Emilsson, V. Co-Regulatory Networks of Human Serum Proteins Link Genetics to Disease / V.Emilsson, [et al.] // Science. – 2018. – Vol.361, No.6404. – p.769-773. - Bibliogr.:30.

http://dx.doi.org/10.1126/science.aaq1327

160. Ghezraoui, H. 53BP1 Cooperation with the REV7–Shieldin Complex Underpins DNA Structure-Specific NHEJ / H.Ghezraoui, [et al.] // Nature. – 2018. – Vol.560, No.7716. – p.122-127. - Bibliogr.:28.

http://dx.doi.org/10.1038/s41586-018-0362-1

161. Lahmiri, S. Nonlinear Statistical Properties of fMRI Signals in Human Visual Cortex During Resting-State / S.Lahmiri, [et al.] // Physics Letters A. – 2018. – Vol.382, No.34. – p.2326-2333. - Bibliogr.:49.

http://dx.doi.org/10.1016/j.physleta.2018.05.022

162. Meng, Z. RAP2 Mediates Mechanoresponses of the Hippo Pathway / Z.Meng, [et al.] // Nature. – 2018. – Vol.560, No.7720. – p.655-660. - Bibliogr.:28.

http://dx.doi.org/10.1038/s41586-018-0444-0

163. Mirman, Z. 53BP1–RIF1–Shieldin Counteracts DSB Resection Through CST- and Pol-Dependent Fill-In / Z.Mirman, [et al.] // Nature. – 2018. – Vol.560, No.7716. – p.112-116. - Bibliogr.:30.

http://dx.doi.org/10.1038/s41586-018-0324-7

164. Noordermeer, S.M. The Shieldin Complex Mediates 53BP1-Dependent DNA Repair / S.M.Noordermeer, [et al.] // Nature. – 2018. – Vol.560, No.7716. – p.117-121. - Bibliogr.:28.

http://dx.doi.org/10.1038/s41586-018-0340-7

165. Pons-Salort, M. Serotype-Specific Immunity Explains the Incidence of Diseases Caused by Human Enteroviruses / M.Pons-Salort, N.C.Grassly // Science. – 2018. – Vol.361, No.6404. – p.800-803. - Bibliogr.:19.

http://dx.doi.org/10.1126/science.aat6777

166. Qi, X. Structures of Human Patched and Its Complex with Native Palmitoylated Sonic Hedgehog / X.Qi, [et al.] // Nature. – 2018. – Vol.560, No.7716. – p.128-132. - Bibliogr.:30.

http://dx.doi.org/10.1038/s41586-018-0308-7

167. Saldivar, J.C. An Intrinsic S/G 2 Checkpoint Enforced by ATR / J.C.Saldivar, [et al.] // Science. – 2018. – Vol.361, No.6404. – p.806-810. - Bibliogr.:17.

http://dx.doi.org/10.1126/science.aap9346

168. Segarra, M. Endothelial Dab1 Signaling Orchestrates Neuro-Glia-Vessel Communication in the Central Nervous System / M.Segarra, [et al.] // Science. – 2018. – Vol.361, No.6404. – p.747.

http://dx.doi.org/10.1126/science.aao2861

169. Vos, S.M. Structure of Activated Transcription Complex Pol II–DSIF–PAF–SPT6 / S.M.Vos, [et al.] // Nature. – 2018. – Vol.560, No.7720. – p.607-612. - Bibliogr.:50.

http://dx.doi.org/10.1038/s41586-018-0440-4

170. Vos, S.M. Structure of Paused Transcription Complex Pol II–DSIF–NELF / S.M.Vos, [et al.] // Nature. – 2018. – Vol.560, No.7720. – p.601-606. - Bibliogr.:50.

http://dx.doi.org/10.1038/s41586-018-0442-2

171. Wilson, D.E. Differential Tuning of Excitation and Inhibition Shapes Direction Selectivity in Ferret Visual Cortex / D.E.Wilson, [et al.] // Nature. – 2018. – Vol.560, No.7716. – p.97-101. - Bibliogr.:32.

http://dx.doi.org/10.1038/s41586-018-0354-1

172. Yang, S. Crystal Structure of the Frizzled 4 Receptor in a Ligand-Free State / S.Yang, [et al.] // Nature. – 2018. – Vol.560, No.7720. – p.666-670. - Bibliogr.:28.

http://dx.doi.org/10.1038/s41586-018-0447-x

173. Yao, H. Leukaemia Hijacks a Neural Mechanism to Invade the Central Nervous System / H.Yao, [et al.] // Nature. – 2018. – Vol.560, No.7716. – p.55-60. - Bibliogr.:33.

http://dx.doi.org/10.1038/s41586-018-0342-5

174. Zhang, W. SIRT6 Deficiency Results in Developmental Retardation in Cynomolgus Monkeys / W.Zhang, [et al.] // Nature. – 2018. – Vol.560, No.7720. – p.661-665. - Bibliogr.:20.

http://dx.doi.org/10.1038/s41586-018-0437-z

175. Резник, Н.Л. Лекарственный фон планеты / Н.Л.Резник // Химия и жизнь. – 2018. – №9. – с.28-31.

28.08 - Экология

176. Schwartz, S.E. Resource Letter GECC-1: The Greenhouse Effect and Climate Change: Earth's Natural Greenhouse Effect / S.E.Schwartz // American Journal of Physics. – 2018. – Vol.86, No.8. – p.565-577. - Bibliogr.:55.

http://dx.doi.org/10.1119/1.5045574

СПИСОК ПРОСМОТРЕННЫХ ЖУРНАЛОВ


1. American Journal of Physics. – 2018. – Vol.86, No.8. – P.561-640.

2. Annals of Physics. – 2018. – Vol.395. – P.1-388.

3. Journal of Physics A. – 2018. – Vol.51, No.31. – P.315001-319601.

4. Journal of Physics A. – 2018. – Vol.51, No.32. – P.324001-325303.

5. Journal of Physics A. – 2018. – Vol.51, No.33. – P.333001-335304.

6. Nature. – 2018. – Vol.559, No.7713. – P.147-296.

7. Nature. – 2018. – Vol.559, No.7715. – P.435-652.

8. Nature. – 2018. – Vol.560, No.7716. – P.1-136.

9. Nature. – 2018. – Vol.560, No.7719. – P.405-522.

10. Nature. – 2018. – Vol.560, No.7720. – P.523-676.

11. Nuclear Instruments & Methods in Physics Research A. – 2018. – Vol.898. – P.1-138.

12. Nuclear Instruments & Methods in Physics Research B. – 2018. – Vol.430. – P.1-78.

13. Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.2. – Electronic journal. - Title from the title screen.

14. Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.3. – Electronic journal. - Title from the title screen.

15. Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.4. – Electronic journal. - Title from the title screen.

16. Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.5. – Electronic journal. - Title from the title screen.

17. Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.6. – Electronic journal. - Title from the title screen.

18. Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.8. – Electronic journal. - Title from the title screen.

19. Physical Review Letters [Electronic resource]. – 2018. – Vol.121, No.9. – Electronic journal. - Title from the title screen.

20. Physics Letters A. – 2018. – Vol.382, No.34. – P.2297-2394.

21. Physics Today. – 2018. – Vol.71, No.8. – P.1-68.

22. Physics World. – 2018. – Vol.31, No.8. – P.1-56.

23. Science. – 2018. – Vol.361, No.6398. – P.105-200.

24. Science. – 2018. – Vol.361, No.6399. – P.201-304.

25. Science. – 2018. – Vol.361, No.6402. – P.525-620.

26. Science. – 2018. – Vol.361, No.6403. – P.621-720.

27. Science. – 2018. – Vol.361, No.6404. – P.721-820.

28. Атомная энергия. – 2018. – Т.125, №2. – С.69-128.

29. Химия и жизнь. – 2018. – №9. – С.1-64.


19