All Stories

  1. On the formation of trappable antihydrogen
  2. Characterization of the 1S–2S transition in antihydrogen
  3. Collisions involving antiprotons and antihydrogen: an overview
  4. Enhanced Control and Reproducibility of Non-Neutral Plasmas
  5. The Role of Antihydrogen Formation in the Radial Transport of Antiprotons in Positron Plasmas
  6. Antihydrogen accumulation for fundamental symmetry tests
  7. Observation of the hyperfine spectrum of antihydrogen
  8. A coupled rearrangement channel analysis of positronium antihydride ${\rm{Ps}}\bar{{\rm{H}}}$
  9. Positronium-dipole induced resonances ine+-H ande+-alkali systems
  10. Observation of the 1S–2S transition in trapped antihydrogen
  11. Limit on the electric charge of antihydrogen
  12. Towards a test of the weak equivalence principle of gravity using anti-hydrogen at CERN
  13. The role of antihydrogen formation in the radial transport of antiprotons in positron plasmas
  14. Bimodal momentum distribution of laser-cooled atoms in optical lattices
  15. Resonances in a positron-lithium(e+−Li)system
  16. An improved limit on the charge of antihydrogen from stochastic acceleration
  17. Fundamental Tests of Physics with Antihydrogen at ALPHA
  18. Resonances in positron-potassium (e+-K) system with natural and unnatural parities
  19. Antiproton cloud compression in the ALPHA apparatus at CERN
  20. Antiproton cloud compression in the ALPHA apparatus at CERN
  21. Resonances with natural and unnatural parities in positron-sodium scattering
  22. Resonances with natural and unnatural parities in positron-sodium scattering
  23. The GBAR antimatter gravity experiment
  24. The GBAR antimatter gravity experiment
  25. Natural and unnatural parity resonance states in positron–hydrogen scattering
  26. Foreword
  27. A search for resonances in the $p\mu e$ system
  28. Metastable states in antihydrogen formation
  29. Laser-cooling assisted antihydrogen trapping
  30. An experimental limit on the charge of antihydrogen
  31. In situ electromagnetic field diagnostics with an electron plasma in a Penning–Malmberg trap
  32. The ALPHA antihydrogen trapping apparatus
  33. Silicon vertex detector upgrade in the ALPHA experiment
  34. Autoresonant-spectrometric determination of the residual gas composition in the ALPHA experiment apparatus
  35. Description and first application of a new technique to measure the gravitational mass of antihydrogen
  36. Experimental and computational study of the injection of antiprotons into a positron plasma for antihydrogen production
  37. Electron plasmas as a diagnostic tool for hyperfine spectroscopy of antihydrogen
  38. Evaporative cooling of antiprotons for the production of trappable antihydrogen
  39. Antihydrogen annihilation reconstruction with the ALPHA silicon detector
  40. Helium–antihydrogen scattering at low energies
  41. Resonant quantum transitions in trapped antihydrogen atoms
  42. Alternative method for reconstruction of antihydrogen annihilation vertices
  43. Microwave-plasma interactions studied via mode diagnostics in ALPHA
  44. Discriminating between antihydrogen and mirror-trapped antiprotons in a minimum-B trap
  45. The ALPHA – detector: Module Production and Assembly
  46. Alternative method for reconstruction of antihydrogen annihilation vertices
  47. Antiparticle plasmas for antihydrogen trapping
  48. Microwave-plasma interactions studied via mode diagnostics in ALPHA
  49. Antihydrogen detection in ALPHA
  50. Progress towards microwave spectroscopy of trapped antihydrogen
  51. Trapped antihydrogen
  52. Antihydrogen formation by autoresonant excitation of antiproton plasmas
  53. Confinement of antihydrogen for 1,000 seconds
  54. Towards antihydrogen trapping and spectroscopy at ALPHA
  55. Centrifugal Separation and Equilibration Dynamics in an Electron-Antiproton Plasma
  56. Experimental measurement of efficiency and transport coherence of a cold-atom Brownian motor in optical lattices
  57. Antiparticle sources for antihydrogen production and trapping
  58. Search for trapped antihydrogen
  59. Autoresonant Excitation of Antiproton Plasmas
  60. Search for trapped antihydrogen in ALPHAThis paper was presented at the International Conference on Precision Physics of Simple Atomic Systems, held at École de Physique, les Houches, France, 30 May – 4 June, 2010.
  61. Antihydrogen detection in ALPHA
  62. Antihydrogen formation by autoresonant excitation of antiproton plasmas
  63. Progress towards microwave spectroscopy of trapped antihydrogen
  64. Trapped antihydrogen
  65. Towards antihydrogen trapping and spectroscopy at ALPHA
  66. ALPHA ANTIHYDROGEN EXPERIMENT
  67. Trapped antihydrogen
  68. Antimatter transport processes
  69. Evaporative Cooling of Antiprotons to Cryogenic Temperatures
  70. Detailed calculations on low-energy positron-hydrogen-molecule and helium-antihydrogen scattering
  71. Simulations of antihydrogen formation in a nested Penning trap
  72. Simulation of the formation of antihydrogen in a nested Penning trap: effect of positron density
  73. Controllable 3D atomic Brownian motor in optical lattices
  74. Simulations of Sisyphus cooling including multiple excited states
  75. Rearrangement in antihydrogen–atom scattering
  76. The interaction of antihydrogen with simple atoms and molecules
  77. Antihydrogen for precision tests in physics
  78. Low-energy scattering of antihydrogen by helium and molecular hydrogen
  79. Rearrangement and annihilation in antihydrogen-atom scattering
  80. Characterisation of a three-dimensional Brownian motor in optical lattices
  81. On the evaluation of transition matrices for rearrangement in atom–antiatom scattering
  82. MOLECULAR EFFECTS IN NEUTRINO MASS MEASUREMENTS
  83. Efimov states for systems with negative scattering lengths
  84. On the Bose–Einstein condensation of exotic atoms
  85. Doubly excited autoionizing states ofH2converging to theH(n=2)+H(n′=2)limit
  86. Low-temperature antihydrogen-atom scattering
  87. Matter–antimatter interactions involving antihydrogen
  88. 3D Brownian motor in an optical lattice
  89. A nonadiabatic semi-classical method for dynamics of atoms in optical lattices
  90. Molecular effects in investigations of tritium molecule β decay endpoint experiments
  91. Time dependence of laser cooling in optical lattices
  92. Including the strong nuclear force in antihydrogen-scattering calculations
  93. Strong nuclear force in cold antihydrogen-helium collisions
  94. Leptonic annihilation in hydrogen-antihydrogen collisions
  95. Erratum: Decay rates of excited muonic molecular ions [Phys. Rev. A68, 032502 (2003)]
  96. Hydrogen-Antihydrogen Molecule and Its Properties
  97. Cold collisions of atomic hydrogen with antihydrogen atoms: An optical potential approach
  98. Universality of the three-boson system close to a Feshbach resonance
  99. Hydrogen–antihydrogen scattering in the Born–Oppenheimer approximation
  100. Fine Structure in Cold Collisions of Spin-Polarized H(2s) Atoms
  101. Positron–Electron Annihilation in Hydrogen–Antihydrogen Collisions
  102. Decay rates of excited muonic molecular ions
  103. Cold collisions of spin-polarized metastable hydrogen atoms
  104. Universal Behavior of the Energy of Trapped Few-Boson Systems with Large Scattering Length
  105. Interaction Energy of Two Trapped Bosons with Long Scattering Lengths
  106. Long-range interactions between two2sexcited hydrogen atoms
  107. Stability of hydrogen-antihydrogen mixtures at low energies
  108. Radiative association of atomic hydrogen with antihydrogen at subkelvin temperatures
  109. Collisions between Metastable Hydrogen Atoms at Thermal Energies
  110. Hydrogen-Antihydrogen Collisions
  111. Improved Molecular Final-State Distribution ofHeT+for theβ-Decay Process ofT2
  112. Low energy hydrogen-antihydrogen collisions
  113. Neutrino-mass determination from tritiumβdecay: Corrections to and prospects of experimental verification of the final-state spectrum
  114. Influence ofppπions on pion absorption inH2
  115. Effects from Changes in the Final State Spectrum on the Neutrino Mass Determination fromT2Beta Decay Experiments
  116. Collisions of H and ¯H