Resolved-Sideband Raman Cooling of a Bound Atom to the 3D Zero-Point Energy
about
Ground State Laser Cooling Using Electromagnetically Induced TransparencyQuantum dynamics of single trapped ionsNobel Lecture: Superposition, entanglement, and raising Schrödinger’s catDemonstration of a Fundamental Quantum Logic GateExperimental Issues in Coherent Quantum-State Manipulation of Trapped Atomic IonsControl of the conformations of ion Coulomb crystals in a Penning trapRaman gas self-organizing into deep nano-trap lattice.Two-particle quantum interference in tunnel-coupled optical tweezers.A low-temperature external cavity diode laser for broad wavelength tuning.Arrays of individually controlled ions suitable for two-dimensional quantum simulations.Amplifying quantum signals with the single-electron transistorFast Quantum Rabi Model with Trapped Ions.Mechanically detecting and avoiding the quantum fluctuations of a microwave field.Experimental quantum simulation of fermion-antifermion scattering via boson exchange in a trapped ion.Superposition, entanglement, and raising Schrödinger's cat (Nobel Lecture).3D Sisyphus Cooling of Trapped Ions.Quantum Parametric Oscillator with Trapped Ions.Electro-optical nanotraps for neutral atoms.Ion trap simulations of quantum fields in an expanding universe.Sympathetic Ground State Cooling and Time-Dilation Shifts in an ^{27}Al^{+} Optical Clock.Measurement-induced operation of two-ion quantum heat machines.Cavity cooling of an ensemble spin system.Preparation of Entangled States through Hilbert Space Engineering.Coherence and Raman sideband cooling of a single atom in an optical tweezer.Dissipative production of a maximally entangled steady state of two quantum bits.Trapped ion quantum computation with transverse phonon modes.Fast and robust laser cooling of trapped systems.Ground-State Cooling of a Trapped Ion Using Long-Wavelength Radiation.3D projection sideband cooling.Site-resolved imaging of fermionic ^{6}Li in an optical lattice.Entanglement of atomic qubits using an optical frequency comb.Quantum-gas microscope for fermionic atoms.Scalable implementation of boson sampling with trapped ions.Space-Time Crystals of Trapped IonsSideband cooling of ions in radio-frequency trapsSuppression of ion transport due to long-lived subwavelength localization by an optical latticeCoherent Polariton Dynamics in Coupled Highly Dissipative CavitiesCoupled quantized mechanical oscillatorsNear-ground-state transport of trapped-ion qubits through a multidimensional arrayEfficient sympathetic motional-ground-state cooling of a molecular ion
P2860
Q21698587-4CC23899-DC52-4384-81FD-B39150C5C776Q27349139-2351212E-9510-4CA3-B3E9-69D17C904A76Q27350538-C893FF71-242F-4193-8733-7578993A00B8Q27450518-314BC9E2-74DF-4F90-BFC7-8C007322E3A6Q30367460-902B6275-84AD-42B6-87F8-BBA4BB6B944FQ30448095-5B2A2915-F899-445B-BCBA-CE4CAD2DCE01Q30819132-059CAE69-B8BC-427E-B5F8-A62570280FBAQ35195852-12BA1E79-1FBB-4C03-85C2-020F76AC498FQ36211357-2A26305F-D754-4CDA-A4DE-E62D278B09F5Q37010214-6627FDBF-E296-490B-9B30-B7489C5D78E6Q39546880-2B11CCF5-BC0F-45C5-8717-6457D35E605FQ42265784-050443CB-E08C-45B4-85E0-8A6D0C43D282Q46315089-C9EB059E-86A5-4F76-829A-EE85E4970BD8Q48042890-3EB61EE7-AD30-4BC4-8764-166F01446FB8Q48527047-A7F109E2-4A69-4EBE-9EC7-440C3E428574Q50004699-4D97EF45-C339-4B58-BA81-0E13074EC682Q50096424-4A086EBF-FC40-48B7-8F55-325DCC271F2EQ50453961-EC0007C1-1B0C-4770-BA55-FE876E8E37E1Q50483447-F819988B-57EC-4A5A-859E-E95AF7D50A2DQ50886893-ACF0258E-D062-47BC-BBAC-3910851F306CQ50914006-F1536DA2-263B-4BD3-8D44-EC3E0E7BA57CQ51106775-E06A0B95-DAB0-4052-8D79-1E7467DEE20DQ51138460-54BC8E81-F33A-47F2-A0D7-59DFCE5BB02CQ51456870-D57CBB3C-D41A-4D5D-BABE-4436B1766981Q51593598-BC364E0E-AFB1-4F0B-AB50-39450BED4A21Q51628972-96819880-FFD3-4247-8A05-4FBEEFF60C47Q51707468-F0AC5549-7F0C-4429-B6A3-0ED934A57A48Q53181444-F77AC546-559D-4893-BD58-F235E86A9585Q53382215-04229CD0-315F-4A15-B0FC-7D9392A69814Q53470296-3E0FD70D-4E4F-419C-A2D9-B5D9970D1E35Q53470414-DF06285F-A5FC-42BC-95A5-BE721D1A079FQ53486889-05816A58-C086-4841-897E-FEAA3A78E9F9Q55057727-4414BFEF-D31E-4AEA-A4F7-601593634303Q56536140-F1B5500E-01B1-414A-ABFA-73842944E7AAQ57074463-AE17A351-B440-496D-AB70-F2096C9561C0Q57165629-DAB07F72-5DDC-4535-8CF9-0493A096E40AQ57647559-4F171BFF-1DCF-411E-AD44-B0AF89DD4E7EQ57767873-960A0A49-345C-4998-8253-0557BF0824CBQ57767878-66AB9109-9D0B-4875-BBBE-6E522625B52DQ58196902-0D478FF7-56DF-42D4-8F07-20979C8B3C78
P2860
Resolved-Sideband Raman Cooling of a Bound Atom to the 3D Zero-Point Energy
description
article publié dans la revue scientifique Physical Review Letters
@fr
im November 1995 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published in Physical Review Letters
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в листопаді 1995
@uk
name
Resolved-Sideband Raman Cooling of a Bound Atom to the 3D Zero-Point Energy
@en
Resolved-Sideband Raman Cooling of a Bound Atom to the 3D Zero-Point Energy
@nl
type
label
Resolved-Sideband Raman Cooling of a Bound Atom to the 3D Zero-Point Energy
@en
Resolved-Sideband Raman Cooling of a Bound Atom to the 3D Zero-Point Energy
@nl
prefLabel
Resolved-Sideband Raman Cooling of a Bound Atom to the 3D Zero-Point Energy
@en
Resolved-Sideband Raman Cooling of a Bound Atom to the 3D Zero-Point Energy
@nl
P2093
P2860
P1476
Resolved-Sideband Raman Cooling of a Bound Atom to the 3D Zero-Point Energy
@en
P2093
B. E. King
D. J. Wineland
D. M. Meekhof
S. R. Jefferts
W. M. Itano
P2860
P304
P356
10.1103/PHYSREVLETT.75.4011
P407
P577
1995-11-27T00:00:00Z