scholarly article | Q13442814 |
P356 | DOI | 10.1103/REVMODPHYS.70.707 |
P3181 | OpenCitations bibliographic resource ID | 3306691 |
P2093 | author name string | Claude N. Cohen-Tannoudji | |
P2860 | cites work | Cesium atoms bouncing in a stable gravitational cavity | Q74540841 |
Subrecoil laser cooling and Lévy flights | Q74547469 | ||
Two-dimensional subrecoil laser cooling | Q74551418 | ||
Atomic clocks and variations of the fine structure constant | Q74557344 | ||
Monte Carlo wave-function analysis of 3D optical molasses | Q74557592 | ||
Phase modulation of atomic de Broglie waves | Q74558725 | ||
Three-Dimensional Laser Cooling of Helium Beyond the Single-Photon Recoil Limit | Q74562817 | ||
Quantum jumps in atomic systems | Q77824659 | ||
Normal-incidence reflection of slow atoms from an optical evanescent wave | Q84574939 | ||
Fourth Test of General Relativity | Q21706425 | ||
Stark Effect in Rapidly Varying Fields | Q21709577 | ||
Bloch Oscillations of Atoms in an Optical Potential | Q27335380 | ||
Trapping of Neutral Sodium Atoms with Radiation Pressure | Q27335644 | ||
Quantum-State-Selective Mirror Reflection of Atoms by Laser Light | Q27336889 | ||
Very cold trapped atoms in a vapor cell | Q27346313 | ||
Laser cooling below a photon recoil with three-level atoms | Q27350210 | ||
Experimental Observation of Optically Trapped Atoms | Q27450320 | ||
Anomalous diffusion in disordered media: Statistical mechanisms, models and physical applications | Q30053782 | ||
Applications of laser radiation pressure | Q33298136 | ||
Observation of atoms laser cooled below the Doppler limit. | Q55032700 | ||
Laser Cooling below the One-Photon Recoil Energy by Velocity-Selective Coherent Population Trapping | Q55968055 | ||
Three-dimensional viscous confinement and cooling of atoms by resonance radiation pressure | Q56656161 | ||
Laser Deceleration of an Atomic Beam | Q57635588 | ||
Future Slow-atom Frequency Standards | Q58474999 | ||
Laser cooling and trapping of neutral atoms | Q59475233 | ||
Motion of atoms in a radiation trap | Q59475689 | ||
Dressed-atom approach to atomic motion in laser light: the dipole force revisited | Q59477143 | ||
Laser cooling below the Doppler limit by polarization gradients: simple theoretical models | Q59477165 | ||
Evaporative Cooling in a Crossed Dipole Trap | Q60426475 | ||
Raman Cooling of Cesium below 3 nK: New Approach Inspired by Lévy Flight Statistics | Q62270470 | ||
Cooling of gases by laser radiation | Q63664686 | ||
Laser manipulation of atomic beam velocities: Demonstration of stopped atoms and velocity reversal | Q74465662 | ||
Channeling atoms in a laser standing wave | Q74480267 | ||
rf spectroscopy in an atomic fountain | Q74499282 | ||
Dynamics and spatial order of cold cesium atoms in a periodic optical potential | Q74515676 | ||
Observation of quantized motion of Rb atoms in an optical field | Q74516867 | ||
P433 | issue | 3 | |
P304 | page(s) | 707-719 | |
P577 | publication date | 1998-07-01 | |
P1433 | published in | Reviews of Modern Physics | Q26572 |
P1476 | title | Nobel Lecture: Manipulating atoms with photons | |
P478 | volume | 70 |
Q89865916 | A fibered laser system for the MIGA large scale atom interferometer |
Q59811730 | A vector holographic optical trap |
Q59475959 | Accumulating NH radicals in a magnetic trap |
Q21708986 | Anomalous diffusion and Tsallis statistics in an optical lattice |
Q60316986 | Chaotic dynamics of a single two-level atom in the field of a plane standing electromagnetic wave |
Q59475240 | Coherent Manipulation of Atoms Molecules By Sequential Laser Pulses |
Q57961213 | Cold collisions of an open-shell S-state atom with a 2Π molecule: N(4S) colliding with OH in a magnetic field |
Q33365667 | Collective atomic recoil laser as a synchronization transition. |
Q59713618 | Collimation of a beam of caesium atoms by optical molasses, with resulting reduction in longitudinal beam velocity |
Q55642419 | Colloquium: Gripped by light: Optical binding |
Q59713286 | Controlling photons in a box and exploring the quantum to classical boundary |
Q48526378 | Controlling photons in a box and exploring the quantum to classical boundary (Nobel Lecture). |
Q34230014 | Cooling Bose-Einstein condensates below 500 picokelvin. |
Q62396041 | Cooling atomic motion with quantum interference |
Q57558764 | Cooling of atomic ensembles in optical cavities: Semiclassical limit |
Q59443111 | Decoherence of cold atomic gases in magnetic microtraps |
Q62045512 | Demonstration of a Controllable Three-Dimensional Brownian Motor in Symmetric Potentials |
Q51772279 | Directed random walk with random restarts: The Sisyphus random walk. |
Q57185841 | Dynamics of Bose-Einstein condensates in optical lattices |
Q30908702 | Electrostatic trapping of ammonia molecules |
Q51707468 | Fast and robust laser cooling of trapped systems. |
Q55889611 | Feshbach resonances in ultracold gases |
Q51614963 | Fluctuation-induced drift in a gravitationally tilted optical lattice. |
Q59475247 | Formation of Cold (T ⩽ 1 K) Molecules |
Q21698587 | Ground State Laser Cooling Using Electromagnetically Induced Transparency |
Q59060920 | Guiding Neutral Atoms with a Wire |
Q83749282 | Instantaneous axial force of a high-order Bessel vortex beam of acoustic waves incident upon a rigid movable sphere |
Q36340844 | Laser cooling of CaBr molecules and production of ultracold Br atoms: A theoretical study including spin-orbit coupling. |
Q28293662 | Laser cooling of a diatomic molecule |
Q33398414 | Light at work: the use of optical forces for particle manipulation, sorting, and analysis |
Q55885459 | Light speed reduction to 17 metres per second in an ultracold atomic gas |
Q51599430 | Magnetic microchip traps and single-atom detection. |
Q59060516 | Mastering the language of atoms |
Q59060537 | Miniaturizing atom optics: from wires to atom chips |
Q50981351 | Molecular Fountain. |
Q57961274 | Molecule formation in ultracold atomic gases |
Q21563679 | Nobel Lecture: Bose-Einstein condensation in a dilute gas, the first 70 years and some recent experiments |
Q59714046 | Nobel Lecture: Controlling photons in a box and exploring the quantum to classical boundary |
Q56428768 | Nobel lecture: When atoms behave as waves: Bose-Einstein condensation and the atom laser |
Q59475244 | Optical Dipole Traps for Neutral Atoms |
Q50004834 | Optical Force Enhancement Using an Imaginary Vector Potential for Photons. |
Q60232700 | Optical Trapping Takes Shape: The Use of Structured Light Fields |
Q60510944 | Optical lattice clocks and quantum metrology |
Q38160749 | Optical trapping and manipulation of nanostructures |
Q35541173 | Optically driven oscillations of ellipsoidal particles. Part II: ray-optics calculations. |
Q33288549 | Physics of optical tweezers |
Q58759249 | Pushing atoms with light |
Q58481785 | Quantum Plasmonics: From Quantum Statistics to Quantum Interferences |
Q57185850 | Quantum computing with neutral atoms |
Q31042440 | Quantum encounters of the cold kind |
Q55896503 | Quantum interference experiments with large molecules |
Q59476034 | Quantum limits of stochastic cooling of a bosonic gas |
Q59007928 | Quantum physics: Observing and the observed |
Q30819132 | Raman gas self-organizing into deep nano-trap lattice. |
Q62396050 | Raman sideband cooling in the presence of multiple decay channels |
Q74773857 | Reaching fermi degeneracy in two-species optical dipole traps |
Q59161223 | Resonant Radiation Pressure on Neutral Particles in a Waveguide |
Q60033443 | Rotational master equation for cold laser-driven molecules |
Q51789066 | Self-organization in dissipative optical lattices. |
Q53790961 | Self-sustained oscillations in a large magneto-optical trap. |
Q73477117 | Single-stage sub-Doppler cooling of alkaline earth atoms |
Q33526013 | Space-time contours to treat intense field-dressed molecular states |
Q59205178 | Tailoring azimuthal optical force on lossy chiral particles in Bessel beams |
Q38600695 | Theoretical investigation on spin-forbidden cooling transitions of gallium hydride. |
Q30051746 | Three-dimensional laser cooling at the Doppler limit |
Q26799075 | Transformation optics beyond the manipulation of light trajectories |
Q63382574 | Trapping ions |
Q51172336 | Trapping of cold excitons in quantum well structures with laser light. |
Q90262015 | Velocity-dependent optical forces and Maxwell's demon |
Q53497832 | Will a Decaying Atom Feel a Friction Force? |
Q59713316 | Über die Kontrolle von Photonen im Kasten und die Erforschung des Übergangs von der Quanten- zur klassischen Welt (Nobel-Aufsatz) |