All Stories

  1. Calculation of the hyperfine structure of Er and Fm
  2. Prospects for optical clocks combining high sensitivity to new physics with insensitivity to perturbations: The case of Sb+
  3. Effects of the long-range neutrino-mediated force in atomic phenomena
  4. A limit on variations in the fine-structure constant from spectra of nearby Sun-like stars
  5. Effects of gravity in extra dimensions in atomic phenomena
  6. Long-range parity-nonconserving electron-nucleon interaction
  7. Relativistic frequency shifts in Cr, Ti, Fe, Ni, Ca, Na, and V to search for variations in the fine-structure constant
  8. Nuclear polarization and the contributions of relativistic effects to King plot nonlinearity
  9. Nuclear deformation as a source of the nonlinearity of the King plot in the Yb+ ion
  10. Time keeping and searching for new physics using metastable states of Cu, Ag, and Au
  11. Calculation of Polarizabilities for Atoms with Open Shells
  12. Using isotope shift for testing nuclear theory: The case of nobelium isotopes
  13. Erratum: Calculations of the atomic structure for the low-lying states of actinium [Phys. Rev. A 100 , 022504 (2019)]
  14. Electric dipole moments of atoms and molecules produced by enhanced nuclear Schiff moments
  15. Time- and parity-violating effects of the nuclear Schiff moment in molecules and solids
  16. Sensitivity of the isotope shift to the distribution of nuclear charge density
  17. Calculations of the atomic structure for the low-lying states of actinium
  18. Theoretical study of the electron structure of superheavy elements with an open 6d shell: Sg, Bh, Hs, and Mt
  19. Constraining the magnetic field on white dwarf surfaces; Zeeman effects and fine structure constant variation
  20. Fast configuration-interaction calculations for nobelium and ytterbium
  21. Hyperfine-induced transitions S01−D13 in Yb
  22. Nobelium energy levels and hyperfine-structure constants
  23. Atomic structure calculations of superheavy noble element oganesson (Z=118)
  24. Screening of an oscillating external electric field in atoms
  25. New constraints on axion-mediated P , T -violating interaction from electric dipole moments of diamagnetic atoms
  26. Calculation of atomic spectra and transition amplitudes for the superheavy element Db ( Z =105)
  27. Testing physics beyond the standard model through additional clock transitions in neutral ytterbium
  28. Probing Sizes and Shapes of Nobelium Isotopes by Laser Spectroscopy
  29. Isotope shifts in the 7s→8s transition of francium: Measurements and comparison to ab initio theory
  30. New Methods for Testing Lorentz Invariance with Atomic Systems
  31. Improved Limits on Axionlike-Particle-Mediated P , T -Violating Interactions between Electrons and Nucleons from Electric Dipole Moments of Atoms and Molecules
  32. Probing Low-Mass Vector Bosons with Parity Nonconservation and Nuclear Anapole Moment Measurements in Atoms and Molecules
  33. Visible spectra of highly charged holmium ions observed with a compact electron beam ion trap
  34. Effect of nuclear quadrupole moments on parity nonconservation in atoms
  35. Isotope shift and search for metastable superheavy elements in astrophysical data
  36. Electron recombination with tungsten ions with openf-shells
  37. Probing the Gravitational Dependence of the Fine-Structure Constant from Observations of White Dwarf Stars
  38. Limits on gravitational Einstein equivalence principle violation from monitoring atomic clock frequencies during a year
  39. Combining configuration interaction with perturbation theory for atoms with a large number of valence electrons
  40. Quantum Electrodynamical Shifts in Multivalent Heavy Ions
  41. Electron structure of superheavy elements Uut, Fl and Uup (Z=113 to 115)
  42. All-order calculations of the spectra of superheavy elements 113 and 114
  43. Ionization potentials of superheavy elements No, Lr, and Rf and their ions
  44. Dark matter scattering on electrons: Accurate calculations of atomic excitations and implications for the DAMA signal
  45. Hyperfine-induced electric dipole contributions to the electric octupole and magnetic quadrupole atomic clock transitions
  46. Atomic properties ofLu+
  47. Ionization potentials and polarizabilities of superheavy elements from Db to Cn(Z=105–112)
  48. Strongly enhanced effects of Lorentz symmetry violation in entangled Yb+ ions
  49. Level-resolved quantum statistical theory of electron capture into many-electron compound resonances in highly charged ions
  50. Actinide ions for testing the spatial α -variation hypothesis
  51. Parity and Time-Reversal Violation in Atomic Systems
  52. Effects of Lorentz-symmetry violation on the spectra of rare-earth ions in a crystal field
  53. Atomic Ionization by Dark Matter Particles
  54. New Atomic Methods for Dark Matter Detection
  55. Detecting Positron-Atom Bound States through Resonant Annihilation and Scattering
  56. Periodic table of positronic atoms
  57. Electron recombination with multicharged ions via chaotic many-electron states
  58. Identification of the Predicted 5 s − 4 f Level Crossing Optical Lines with Applications to Metrology and Searches for the Variation of Fundamental Constants
  59. Spectra of barium, radium, and element 120: Application of the combined correlation-potential, singles-doubles, and configuration-interaction ab initio methods
  60. Highly charged ions for atomic clocks and search for variation of the fine structure constant
  61. Optical clock sensitive to variations of the fine-structure constant based on the Ho 14 + ion
  62. Parity-violating interactions of cosmic fields with atoms, molecules, and nuclei: Concepts and calculations for laboratory searches and extracting limits
  63. Atomic properties of Cd-like and Sn-like ions for the development of frequency standards and search for the variation of the fine-structure constant
  64. Optical atomic clocks with suppressed blackbody-radiation shift
  65. Highly charged Ag-like and In-like ions for the development of atomic clocks and the search for α variation
  66. Limiting P -Odd Interactions of Cosmic Fields with Electrons, Protons, and Neutrons
  67. Effect of the atomic electric quadrupole moment on positron binding
  68. Combination of the single-double–coupled-cluster and the configuration-interaction methods: Application to barium, lutetium, and their ions
  69. Highly Charged Ions for Atomic Clocks, Quantum Information, and Search for α variation
  70. Atomic properties of superheavy elements No, Lr, and Rf
  71. Strongly enhanced atomic parity violation due to close levels of opposite parity
  72. Scalar static polarizabilities of lanthanides and actinides
  73. Stark shift and parity nonconservation for near-degenerate states of xenon
  74. Identification of atoms that can bind positrons
  75. Nuclear-spin-dependent parity nonconservation ins-d5/2ands-d3/2transitions
  76. Electron recombination, photoionization, and scattering via many-electron compound resonances
  77. Transition amplitudes, polarizabilities, and energy levels within optical wavelength of highly charged ions Sm 14 + and Sm 13 +
  78. All-order calculations of the spectra of Ba ii, Ra ii, Fr i, and superheavy elements E119 i and E120 ii
  79. Double-core-polarization contribution to atomic parity-nonconservation and electric-dipole-moment calculations
  80. Prospects of building optical atomic clocks using Er i or Er iii
  81. Calculation of strongly forbiddenM1transitions andg-factor anomalies in atoms considered for parity-nonconservation measurements
  82. Relativistic study of nuclear-anapole-moment effects in diatomic molecules
  83. Parity nonconservation in Fr-like actinide and Cs-like rare-earth-metal ions
  84. Limits on Violations of Lorentz Symmetry and the Einstein Equivalence Principle using Radio-Frequency Spectroscopy of Atomic Dysprosium
  85. Quantum electrodynamics corrections to energies, transition amplitudes, and parity nonconservation in Rb, Cs, Ba + , Tl, Fr, and Ra +
  86. Calculation of parity-nonconserving optical rotation in iodine at 1315 nm
  87. Erratum: High-precision atomic clocks with highly charged ions: Nuclear-spin-zerof12-shell ions [Phys. Rev. A86, 054501 (2012)]
  88. Calculation of the parity-violating 5 s -6 s E 1 amplitude in the rubidium atom
  89. Ion clock and search for the variation of the fine-structure constant using optical transitions in Nd 13 + and Sm 15 +
  90. Calculation of parity nonconservation in xenon and mercury
  91. Nuclear-spin-dependent parity violation in diatomic molecular ions
  92. Revisiting Parity Nonconservation in Cesium
  93. High-precision atomic clocks with highly charged ions: Nuclear-spin-zero f 12 -shell ions
  94. PARITY VIOLATION AND ELECTRIC DIPOLE MOMENTS IN ATOMS AND MOLECULES
  95. Highly Charged Ions as a Basis of Optical Atomic Clockwork of Exceptional Accuracy
  96. Relativistic linearized coupled-cluster single-double calculations of positron-atom bound states
  97. Chaos-induced enhancement of resonant multielectron recombination in highly charged ions: Statistical theory
  98. Highly charged ions with E 1, M 1, and E 2 transitions within laser range
  99. Optical Transitions in Highly Charged Californium Ions with High Sensitivity to Variation of the Fine-Structure Constant
  100. P -odd interaction constant W A from relativistic ab initio calculations of diatomic molecules
  101. Single-Ion Nuclear Clock for Metrology at the 19th Decimal Place
  102. Erratum: Relations between matrix elements of different weak interactions and interpretation of the parity-nonconserving and electron electric-dipole-moment measurements in atoms and molecules [Phys. Rev. A 84 , 052108 (2011)]
  103. Parity nonconservation in hyperfine transitions
  104. Transitions in Zr, Hf, Ta, W, Re, Hg, Ac, and U ions with high sensitivity to variation of the fine-structure constant
  105. Relations between matrix elements of different weak interactions and interpretation of the parity-nonconserving and electron electric-dipole-moment measurements in atoms and molecules
  106. Electron-Hole Transitions in Multiply Charged Ions for Precision Laser Spectroscopy and Searching for Variations in α
  107. Calculation of nuclear-spin-dependent parity nonconservation in s – d transitions of Ba + , Yb + , and Ra + ions
  108. Calculation of parity nonconservation in neutral ytterbium
  109. Dynamic polarizabilities and magic wavelengths for dysprosium
  110. Possibility of Stark-insensitive cotrapping of two atomic species in optical lattices
  111. Optical Clocks Using Highly Charged Ions to Probe Variation of the Fine-Structure Constant
  112. Hyperfine-mediated static polarizabilities of monovalent atoms and ions
  113. Detecting Positron-Atom Bound States through Resonant Annihilation
  114. Enhanced Laboratory Sensitivity to Variation of the Fine-Structure Constant using Highly Charged Ions
  115. Axio-electric effect
  116. Relativistic many-body calculation of low-energy dielectronic resonances in Be-like carbon
  117. Exponential Increase of Energy Level Density in Atoms: Th and Th II
  118. Theoretical study of some experimentally relevant states of dysprosium
  119. Atomic ionization by keV-scale pseudoscalar dark-matter particles
  120. Sensitivity of the energy levels of singly ionized cobalt to the variation of the fine-structure constant
  121. Dynamic polarizabilities and related properties of clock states of the ytterbium atom
  122. Calculation of the ( T , P ) -odd electric dipole moment of thallium and cesium
  123. Searching for space-time variation of the fine structure constant
  124. Calculation of the hyperfine structure of the superheavy elementsZ=119andZ=120+
  125. Calculation of ( P , T ) -odd electric dipole moments for the diamagnetic atoms X 129 e , Y 171 b , H 199 g , R 211 n , and R 225 a
  126. Mapping Out Atom-Wall Interaction with Atomic Clocks
  127. Proposed Experimental Method to Determine α Sensitivity of Splitting between Ground and 7.6 eV Isomeric States in Th 229
  128. Sensitivity of hyperfine structure to nuclear radius and quark mass variation
  129. Calculation of Stark-induced absorption on the 6 s 6 p P 3 1 – 6 s 2 S 1 0 transition in Hg
  130. Micromagic Clock: Microwave Clock Based on Atoms in an Engineered Optical Lattice
  131. An universal algorithm of calculating terms of atomic many-body perturbation theory
  132. ac Stark shift of the Cs microwave atomic clock transitions
  133. Atomic calculations and search for variation of the fine-structure constant in quasar absorption spectra
  134. Search for variation of the fundamental constants in atomic, molecular, and nuclear spectra
  135. Calculation of the spectra for the superheavy elementZ=112
  136. Magic Frequencies for Cesium Primary-Frequency Standard
  137. Calculation of the spectrum of the superheavy element Z = 120
  138. Correlation potential and ladder diagrams
  139. The effect of atomic electrons on nuclear fission
  140. Calculations of the spectra of superheavy elements Z = 119 and Z = 120 +
  141. Nuclear magnetic octupole moment and the hyperfine structure of the 5 D 3 / 2 , 5 / 2 states of the Ba + ion
  142. Many-body calculations of relativistic energy shifts for single- and double-valence atoms and ions important for α -variation search
  143. Relativistic corrections to transition frequencies of Ag I , Dy I , Ho I , Yb II , Yb III , Au I , and Hg II and search for variation of the fine-structure constant
  144. Relativistic corrections to transition frequencies of Fe I and search for variation of the fine-structure constant
  145. Coupled-cluster single-double calculations of the relativistic energy shifts in C IV, Na I, Mg II, Al III, Si IV, Ca II, and Zn II
  146. Atomic electric dipole moments of He and Yb induced by nuclear Schiff moments
  147. Core-valence correlations for atoms with open shells
  148. Calculation of energy levels and transition amplitudes for barium and radium
  149. Frequency shift of hyperfine transitions due to blackbody radiation
  150. Frequency Shift of the Cesium Clock Transition due to Blackbody Radiation
  151. Narrow atomic transitions with enhanced sensitivity to variation of the fine structure constant
  152. Calculations of energy levels and lifetimes of low-lying states of barium and radium
  153. Breit interaction and parity nonconservation in many-electron atoms
  154. Fine-structure anomalies and search for variation of the fine-structure constant in laboratory experiments
  155. Calculation of isotope shifts for cesium and francium
  156. Calculation of the energy levels of Ge, Sn, Pb, and their ions in the V N − 4 approximation
  157. Search for cosmological variation of the fine-structure constant using relativistic energy shifts in Ge II , Sn II , and Pb II
  158. VN−Mapproximation for atomic calculations
  159. α dependence of transition frequencies for some ions of Ti, Mn, Na, C, and O and the search for variation of the fine-structure constant
  160. Space-time variation of the fine-structure constant and evolution of isotope abundances
  161. Constraining Variationsin the Fine-Structure Constant, Quark Massesand the Strong Interaction
  162. Relativistic effects in two valence-electron atoms and ions and the search for variation of the fine-structure constant
  163. Configuration-interaction calculation for the isotope shift in Mg I
  164. Finite-field evaluation of the Lennard-Jones atom-wall interaction constant C 3 for alkali-metal atoms
  165. Enhancement of the electron electric dipole moment in gadolinium garnets
  166. Energy levels and lifetimes of Nd IV, Pm IV, Sm IV, and Eu IV
  167. Relativistic effects in Sr, Dy, Yb II, and Yb III and search for variation of the fine-structure constant
  168. Isotope-shift calculations for atoms with one valence electron
  169. High-precision calculation of parity nonconservation in cesium and test of the standard model
  170. Enhancement of the electron electric dipole moment in Gd 3 +
  171. Search for violation of fundamental time-reversal and space-reflection symmetries in solid-state experiments
  172. Energy levels and lifetimes of Gd IV and enhancement of the electron electric dipole moment
  173. α dependence of transition frequencies for ions Si II, Cr II, Fe II, Ni II, and Zn II
  174. Electric dipole moments of Hg, Xe, Rn, Ra, Pu, and TlF induced by the nuclear Schiff moment and limits on time-reversal violating interactions
  175. Possible evidence for a variable fine-structure constant from QSO absorption lines: motivations, analysis and results
  176. Further Evidence for Cosmological Evolution of the Fine Structure Constant
  177. Calculations of parity-nonconserving s − d amplitudes in Cs, Fr, Ba + , and Ra +
  178. Relativistic effects in Ni II and the search for variation of the fine-structure constant
  179. Breit correction to the parity-nonconservation amplitude in cesium
  180. Off-diagonal hyperfine interaction and parity nonconservation in cesium
  181. Calculation of positron binding to silver and gold atoms
  182. Calculation of parity and time invariance violation in the radium atom
  183. Atomic optical clocks and search for variation of the fine-structure constant
  184. Enhancement of parity and time invariance violation in heavy atoms
  185. Calculation of the positron bound state with the copper atom
  186. Enhancement factor for the electron electric dipole moment in francium and gold atoms
  187. Space-Time Variation of Physical Constants and Relativistic Corrections in Atoms
  188. Calculations of the relativistic effects in many-electron atoms and space-time variation of fundamental constants
  189. Using effective operators in calculating the hyperfine structure of atoms
  190. - low-lying shape resonance rather than a bound state
  191. Calculation of the energy levels of barium using B splines and a combined configuration-interaction and many-body-perturbation-theory method
  192. Polarizabilities and parity nonconservation in the Cs atom and limits on the deviation from the standard electroweak model
  193. Fine structure of Ca − , Sr − , Ba − , and Ra − from the many-body theory calculation
  194. Core contribution to the nuclear magnetic quadrupole moment
  195. Combination of the many-body perturbation theory with the configuration-interaction method
  196. Many-body calculations of positron scattering and annihilation from noble-gas atoms
  197. Calculations of energy levels for atoms with several valence electrons
  198. Summation of the Dominating Diagrams in Many-body Perturbation Theory
  199. Bound states of positrons and neutral atoms
  200. Calculation of energy levels, E 1 transition amplitudes, and parity violation in francium
  201. Calculation of the weak interactions in dysprosium
  202. Erratum: Correlation-potential method for negative ions and electron scattering [Phys. Rev. A 49 , 2483 (1994)]
  203. Correlation-potential method for negative ions and electron scattering
  204. Interaction between slow positrons and atoms
  205. Resonance enhancement of relativistic effects for the scattering of very slow electrons by heavy atoms
  206. Fine structure of negative ions of alkaline-earth-metal atoms
  207. Many-body perturbation-theory calculations in atoms with open shells
  208. Summation of the high orders of perturbation theory in the correlation correction to the hyperfine structure and to the amplitudes of E1-transitions in the caesium atom
  209. Summation of the perturbation theory high order contributions to the correlation correction for the energy levels of the caesium atom
  210. Summation of the high orders of perturbation theory for the parity nonconserving E1-amplitude of the 6s–7s transition in the caesium atom
  211. Relativistic Many-Body Calculations of Parity Nonconservation in Lead and Bismuth Atoms
  212. Screening of Coulomb interaction and many-body perturbation theory in atoms
  213. Calculation of parity non-conservation in thallium
  214. Parity non-conservation in thallium and caesium
  215. Correlation potential method for the calculation of energy levels, hyperfine structure and E1 transition amplitudes in atoms with one unpaired electron
  216. Shielding of an external electric field in atoms
  217. Enhancement ofP- andT-nonconserving effects in rare-earth atoms
  218. Hyperfine Structure of Ra + and Nuclear Magnetic Moments of Radium Isotopes
  219. Anomalies of g-Factor in Heavy Atoms
  220. Bounds on electric dipole moments and T-violating weak interactions of the nucleons
  221. Relativistic many-body calculations in atoms and parity violation in caesium
  222. Relativistic many-body calculation of parity-violating E1-amplitude for the 6S → 7S transition in atomic cesium
  223. Relativistic many-body calculations of the hyperfine-structure intervals in caesium and francium atoms
  224. Energy levels of francium
  225. Relativistic many-body calculations of energy levels and of fine-structure intervals in the caesium atom
  226. Semiclassical long-range behaviour of Hartree-fock orbitals
  227. Relativistic Corrections in Atoms and Space-Time Variation of the Fine Structure Constant