P185
Concepts of radial and angular kinetic energiesMultimode interference: Highly regular pattern formation in quantum wave-packet evolutionFocus on Atom Optics and its ApplicationsQuantum-noise suppression in lasers via memory-correlation effects.Noise-color-induced quenching of fluctuations in a correlated spontaneous-emission laser model.Quantum-noise quenching in the correlated spontaneous-emission laser as a multiplicative noise process. II. Rigorous analysis including amplitude noise.Quantum-noise quenching in the correlated spontaneous-emission laser as a multiplicative noise process. I. A geometrical argument.Skewed probability densities in the ring laser gyroscope: A colored noise effect.Bose-Einstein condensation in microgravity.Wave-particle dualism and complementarity unraveled by a different mode.Schrödinger equation revisited.Bound states in sharply bent waveguides: analytical and experimental approach.Photon statistics of two-mode squeezed states and interference in four-dimensional phase space.Diffractive Focusing of Waves in Time and in Space.A diffractive mechanism of focusing.Double Bragg Interferometry.Locking equation with colored noise: Continued fraction solution versus decoupling theory.Composite-light-pulse technique for high-precision atom interferometry.Quantum technology: from research to applicationSpace-borne Bose-Einstein condensation for precision interferometrySculpting a wavepacketHumpty Dumpty to Moslem artMatter wave explorer of gravity (MWXG)Phase transitions of stored laser-cooled ionsOscillations in photon distribution of squeezed states and interference in phase spaceLight, the universe and everything – 12 Herculean tasks for quantum cowboys and black diamond skiersMacroscopic Quantum Resonators (MAQRO): 2015 updateCorrigendum: STE-QUEST—test of the universality of free fall using cold atom interferometry (2014 Class. Quantum Grav. 31 115010)STE-QUEST—test of the universality of free fall using cold atom interferometryThe Space Atom Interferometer project: status and prospectsA Compact Atom Interferometer for Future Space MissionsPrefaceFundamental Systems in Quantum OpticsAtom localization via Ramsey interferometry: A coherent cavity field provides a better resolutionInterference of a Bose-Einstein condensate in a hard-wall trap: From the nonlinear Talbot effect to the formation of vorticityDegenerate Quantum Gases in MicrogravityQuantum regime of a free-electron laser: relativistic approachLocalization of an atom by homodyne measurementArc field states, photon statistics probes and quantum lenses: field evolution and atomic motion in a dispersive interaction modelIntermode Traces ? Fundamental Interference Phenomenon in Quantum and Wave Physics
P50
Q21708993-A6246E18-C3D5-4A90-B3E5-69C881D0DF73Q21709003-2F57D500-D2A9-4516-8F79-8AC4BAD3F227Q29032222-B3D2DEE3-541E-4ADB-8A9F-57684DE5CD0EQ31927502-03238DB9-C426-4D65-A90B-60C6E288355CQ31927666-3F76CAFB-97C4-42ED-8C69-409A3BB66B3AQ31928490-66590B52-9A5B-48F3-99F6-A89E41E867CCQ31928582-7EEB07D3-F704-4BB3-AA0D-A8FC6AAFDCEBQ31929834-AE23F26A-D082-4132-AE72-06FC95C41979Q34121414-92ED16AA-6EBC-4F56-96D0-DACE17BBE5B2Q36066473-ADFA0627-B5E3-4E81-8A12-22020313AEE0Q36747651-1F2FEC19-809C-40DF-8271-B3845A6262CDQ46852101-2143451A-1B9A-48A9-B305-0D80A6F634B0Q47344800-C18C0F80-95D3-40AF-B6ED-DE476BCD5DA5Q50693231-0D11AF07-29AD-4496-AF77-E4449D041644Q51285463-507FD2D7-FDF2-458D-959C-700FF3B4AD83Q51332954-1587C5EF-BA95-4521-866C-F8798F182485Q52428034-D31BF129-57B3-4F7D-8FDA-CB175F13DF4BQ53303815-6100E58E-F8C8-43F2-AE55-8EABB4F49263Q54310276-C4FB49C6-5A1A-4FA3-81B9-F80E24FD3A82Q58599000-3E02D42C-B5B0-48EC-A7B8-8B7ED18D774AQ58994468-4771EBE6-A349-453E-B42A-FF36D4037CA5Q58997474-B4500ADC-73DD-4909-B13E-800A5BFE9DECQ59041351-E2CFFB5D-D034-4385-9240-BAEA3F971F6DQ59073740-6630C57D-6E4F-4C50-BA60-4F9DE9DDDD42Q59089360-A46B1EC1-4DCA-4024-882D-D0F0871CA42AQ59151836-E70E337F-3EF3-4FDC-B97D-1E3E5F07D58EQ59245176-CA4DE7C8-3B20-49D7-B964-C875C76F4AE4Q59311903-2F5CDE4C-5A86-42F5-B301-4A370398EFE1Q59311905-D6E81D4F-1ACA-4CFE-8924-397F8DB4952DQ59321426-30F6DB45-E782-438B-BE10-03F991E23876Q59321430-8216A23E-C02B-46BC-82E8-89387463DA62Q59385040-6B39CC3A-9EB0-44E8-B7EE-527599401AD7Q59399450-A535DACC-3222-46AA-B1F8-05B7FBC765F1Q59399507-C7C25A1E-180F-4456-A231-197774D4BF8AQ59399508-64172140-1BD2-43EB-BCE2-E108D9885F79Q59446136-5DBEB5F1-315C-4EE0-9B01-93D319034A61Q59465680-FD6B90DB-99E4-4615-A57A-57F7DE4B9AB6Q59475593-0555E982-9CDB-4EA5-B8B1-0263B2825E84Q59475599-67AE454D-0505-48A8-8A88-608B76F57030Q59477125-46C6E54F-7988-4C49-9310-41C0C1CC572B
P50
description
Duits natuurkundige
@nl
deutscher Physiker
@de
fisiceoir
@ga
fisico
@it
physicien allemand
@fr
physicist
@en
professor académico alemão
@pt
tysk fysikar
@nn
tysk fysiker
@da
tysk fysiker
@nb
name
Wolfgang P. Schleich
@en
Wolfgang P. Schleich
@es
Wolfgang P. Schleich
@sl
Wolfgang Schleich
@ca
Wolfgang Schleich
@da
Wolfgang Schleich
@de
Wolfgang Schleich
@fr
Wolfgang Schleich
@nb
Wolfgang Schleich
@nds
Wolfgang Schleich
@nl
type
label
Wolfgang P. Schleich
@en
Wolfgang P. Schleich
@es
Wolfgang P. Schleich
@sl
Wolfgang Schleich
@ca
Wolfgang Schleich
@da
Wolfgang Schleich
@de
Wolfgang Schleich
@fr
Wolfgang Schleich
@nb
Wolfgang Schleich
@nds
Wolfgang Schleich
@nl
altLabel
Schleich W P
@en
Schleich W
@en
W. P. Schleich
@en
WP Schleich
@en
Wolfgang P. Schleich
@de
Wolfgang Schleich
@en
prefLabel
Wolfgang P. Schleich
@en
Wolfgang P. Schleich
@es
Wolfgang P. Schleich
@sl
Wolfgang Schleich
@ca
Wolfgang Schleich
@da
Wolfgang Schleich
@de
Wolfgang Schleich
@fr
Wolfgang Schleich
@nb
Wolfgang Schleich
@nds
Wolfgang Schleich
@nl