| Record ID | harvard_bibliographic_metadata/ab.bib.12.20150123.full.mrc:321916763:2658 |
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LEADER: 02658cam a2200421 a 4500
001 012345631-2
005 20100621192158.0
008 091013s2009 enka b 101 0 eng
015 $aGBA9A0722$2bnb
016 7 $a101522576$2DNLM
016 7 $a015390042$2Uk
020 $a9781847558374
020 $a1847558372
035 0 $aocn458729033
040 $aNLM$cNLM$dUKM$dUPM$dMNO$dYDXCP$dUBY
042 $aukblsr$anlmcopyc
050 14 $aQD1$b.F32 no.142
060 00 $aW1$bFA459 v.142 2009
060 10 $aQD 480$bC688 2009
082 04 $a539.6$222
245 00 $aCold and ultracold molecules :$bDurham University, UK, 15-17 April 2009 /$c[editor Philip Earis].
260 $a[Great Britain] :$bRSC,$cc2009.
300 $a488 p. :$bill. (some col.) ;$c25 cm.
490 1 $aFaraday discussions,$x1359-6640 ;$vv. 142
504 $aIncludes bibliographical references and indexes.
520 $a"There have been enormous recent advances in our ability to produce and trap samples of translationally cold molecules (below 1 K) and ultracold molecules (below 1 mK). Molecules such as NH3, OH and NH have been cooled from room temperature to the milliKelvin regime by a variety of methods including buffer-gas cooling and Stark deceleration. Molecules have also been produced in ultracold atomic gases by photoassociation and magnetoassociation of pairs of atoms. Bose-Einstein condensates have been produced for dimers of both bosonic and fermionic alkali metal atoms, and the first signatures of ultracold triatomic and tetraatomic molecules have been observed. The new capabilities open up many exciting prospects, including: the study of collision processes in unprecedented detail using cooled or velocity-controlled species; the use of cold molecules in high-precision measurement to observe fundamentally important quantities; the production of quantum gases of dipolar molecules, which would exhibit many new properties; the use of cold molecules as qubits in quantum computing; and controlled ultracold chemistry, in which controlled chemical changes are achieved coherently for large samples using external fields."--Publisher's description.
650 12 $aMolecular Dynamics Simulation$vCongresses.
650 22 $aCold Temperature$vCongresses.
650 0 $aMolecular dynamics$vCongresses.
650 0 $aCold$vCongresses.
650 0 $aMolecules$vCongresses.
650 0 $aCollisions (Physics)$vCongresses.
700 1 $aEaris, Philip.
710 2 $aRoyal Society of Chemistry (Great Britain).$bFaraday Division.
830 0 $aFaraday discussions of the Chemical Society ;$vv. 142.
988 $a20100513
049 $aHLSS
906 $0OCLC