about
Cryogenic buffer-gas loading and magnetic trapping of CrH and MnH moleculesMolecular dynamics simulation of sympathetic crystallization of molecular ionsOptimal beam sources for Stark decelerators in collision experiments: a tutorial reviewQuantum Phases of Dipolar Bosons in Optical LatticesLaser cooling and slowing of CaF moleculesObservation of Bose-Einstein Condensation of MoleculesA prototype storage ring for neutral molecules.Raman gas self-organizing into deep nano-trap lattice.Quantum encounters of the cold kind.Manufacturing a thin wire electrostatic trap for ultracold polar molecules.Producing translationally cold, ground-state CO molecules.Laser-induced enhancement of tunneling in NHD2.Principles and Design of a Zeeman-Sisyphus Decelerator for Molecular Beams.Proposal for Laser Cooling of Complex Polyatomic Molecules.Dependences of Q-branch integrated intensity of linear-molecule pendular spectra on electric-field strength and rotational temperature and its potential applications.A novel molecular synchrotron for cold collision and EDM experimentsDeceleration of supersonic beams using inhomogeneous electric and magnetic fields.Fifteen years of cold matter on the atom chip: promise, realizations, and prospectsAb initio study of ground and excited states of 6Li40Ca and 6Li88Sr molecules.Cooling, spectroscopy and non-sticking of trans-stilbene and Nile Red.Cold and ultracold molecules: spotlight on orbiting resonances.Getting a grip on the transverse motion in a Zeeman decelerator.Manipulation of translational motion of methyl radicals by pulsed magnetic fields.Decelerating and Trapping Large Polar Molecules.Preparation of state purified beams of He, Ne, C, N, and O atoms.Cold collisions of polyatomic molecular radicals with S-state atoms in a magnetic field: an ab initio study of He + CH2(X) collisions.Slowing heavy, ground-state molecules using an alternating gradient decelerator.Interaction of NH(X3Sigma-) molecules with rubidium atoms: implications for sympathetic cooling and the formation of extremely polar molecules.Production and state-selective detection of ultracold RbCs molecules.Trapping of Molecular Oxygen together with Lithium Atoms.Optical stark decelerator for molecules.Quantum computation with trapped polar molecules.Pair-eigenstates and mutual alignment of coupled molecular rotors in a magnetic field.A traveling wave decelerator for neutral polar molecules.State- and conformer-selected beams of aligned and oriented molecules for ultrafast diffraction studies.Selector for structural isomers of neutral molecules.Direct measurement of the radiative lifetime of vibrationally excited OH radicals.Deceleration and electrostatic trapping of OH radicals.Microstructured switchable mirror for polar molecules.Two-dimensional trapping of dipolar molecules in time-varying electric fields.
P2860
Q21708887-618259E0-4E0C-4553-A2A2-03C78091DBAAQ21708980-866BB523-0E46-42DF-B811-A380FF5FB049Q26798263-8159677A-844E-4316-850C-78D976920458Q27345536-4CAAC217-2D91-47BC-850B-979871EBB4FDQ27438822-218C00BB-80A4-418B-9ED2-CD1E3A8DE6C1Q27450968-8BD160EF-DAAD-4C10-B1AA-E926E2626FCCQ30667405-9BFE37C2-B107-476C-A0DA-4FF42DB6B26FQ30819132-5FEB6B7B-275B-49B0-B278-46DB1EFA0411Q31042440-E56AD249-E762-412D-B5CB-FA8EB358319BQ33308222-28FDCF14-F243-4FE8-AE74-15F0104F7DD3Q34032325-EA947219-565E-4BC7-83AC-7D4C5A6152D9Q34275951-B3D81009-1B7A-45F0-A3E4-1CE427AF0361Q36133315-17E8AAF7-53E3-4FBE-9F38-C25D2D4AA547Q36167607-861DCC7C-8CE2-4181-9735-58153DBA4490Q36941399-148825FB-F47F-4AC9-A30A-8168915250C1Q37236596-0DEE1979-9342-468E-BF8F-B0C4F4D2AA71Q37923318-B4C5FD2C-A2D6-4B0C-A8AD-BAA5BD72E232Q38921404-BBF1C864-B219-45A0-858F-303B5A48E260Q43851383-05EFCD6A-3301-479A-A0AC-04B3C272B17BQ44963923-B929E361-B689-45FF-91DE-1365B8BEB232Q46073134-0F541B74-3FEF-4760-9679-A2ABC5E39765Q46380942-F77B8C79-9A40-49ED-9602-209B7EF3B422Q46396307-9FDB2B63-C51B-4992-96B5-4F596C1D5149Q46512007-D22B9642-930E-4238-AD43-0A7E4D460624Q46759704-434946D4-1188-47F1-AF6A-D8FBED331284Q49082434-8EEFD0F8-42A3-475D-9435-194A47D3AFC7Q49246151-285D48D0-5A8A-482F-8832-6B9D87A6C6CEQ49249631-7947C7B9-DFF2-4A8C-B6D8-080C502B24B6Q49252214-1ADFD3E5-7B6F-4A5A-BACE-4EA8D07B9AC2Q49826990-C41AB0FE-7D08-4837-A413-5F10EAFA80BDQ51543193-3E8053BC-CEF4-4ED8-99D7-06C7CDA37322Q51641858-51A57D39-B0B3-4279-994D-A01AE8DAD412Q52852972-50D81F7D-BFE0-45F9-98CF-48E8E096D978Q52892587-CD201B2D-279C-43F2-AFEE-A3F2F8F2684CQ52899797-835796E4-9BF5-44D8-92AB-FB2FB6A11338Q52918091-E0DC4CEC-BAFB-4921-A561-C47FFC3BB539Q52937243-8D0BE3BC-57D8-45F7-A85E-7A65C3533C51Q52940306-6E6F4F48-8EAA-43FE-BD68-35AE6A4BB0A3Q52943209-42DAE783-03AF-46FA-875A-04DFA5FDA15FQ53709745-BCDC6484-04AE-4049-A9A8-D262E18E350C
P2860
description
2000 nî lūn-bûn
@nan
2000 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Electrostatic trapping of ammonia molecules
@ast
Electrostatic trapping of ammonia molecules
@en
type
label
Electrostatic trapping of ammonia molecules
@ast
Electrostatic trapping of ammonia molecules
@en
prefLabel
Electrostatic trapping of ammonia molecules
@ast
Electrostatic trapping of ammonia molecules
@en
P2093
P356
P1433
P1476
Electrostatic trapping of ammonia molecules
@en
P2093
Bethlem HL
Crompvoets FM
van Roij AJ
P2888
P304
P356
10.1038/35020030
P407
P577
2000-08-01T00:00:00Z
P5875
P6179
1031565843