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Collisional trap losses of cold magnetically trapped Br atoms
J Lam, CJ Rennick,
TP Softley
Research output
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Contribution to journal
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Article
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peer-review
4
Citations (Scopus)
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Keyphrases
Rate Coefficients
100%
Loss Rate
100%
Differential Cross Section
66%
Carrier Gas
66%
Supersonic Beams
66%
Magnetic Field
33%
Elastic Collision
33%
Photodissociation
33%
Near-threshold
33%
Bimolecular
33%
Ar Pressure
33%
Two-source
33%
Collision Frequency
33%
Residual Gas
33%
Permanent Magnet
33%
Beam Density
33%
Phase Volume
33%
Trapped Atoms
33%
Bromine Atom
33%
Molecular Beam
33%
Background Gas
33%
Trap Depth
33%
Vacuum Chamber
33%
Pseudo-first-order Kinetics
33%
Expansion Model
33%
Supersonic Expansion
33%
Majorana Transition
33%
Base Pressure
33%
Chemistry
Collisional
100%
Supersonic Beams
100%
Magnetic Field
50%
Photodissociation
50%
Base
50%
Molecular Beam
50%
Elastic Scattering
50%
Phase Space
50%
Bromine Atom
50%
Vacuum Chamber
50%
Kinetic Order
50%
Engineering
Rate Loss
100%
Cross Section
66%
Carrier Gas
66%
Magnetic Field
33%
Phase Space
33%
Elastic Scattering
33%
Good Agreement
33%
Permanent Magnet
33%
Residual Gas
33%
Base Pressure
33%
Collision Rate
33%
Physics
Supersonics
100%
Magnetic Field
25%
Elastic Scattering
25%
Photodissociation
25%
Molecular Beam
25%
Permanent Magnet
25%
Residual Gas
25%
Kinetic Order
25%