Prospects for Doppler cooling of three-electronic-level molecules

Prospects for Doppler cooling of three-electronic-level molecules

Analogous to the extension of laser cooling techniques from two-level to three-level atoms, Doppler cooling of molecules with an intermediate electronic state is considered. In particular, we use a rate-equation approach to simulate cooling of SiO{sup +}, in which population buildup in the intermedi...

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Veröffentlicht in:Physical review. A, Atomic, molecular, and optical physics Atomic, molecular, and optical physics, 2011-05, Vol.83 (5), Article 053404
Hauptverfasser: Nguyen, J. H. V., Odom, B.
Format: Artikel
Sprache:eng
Schlagworte:
ATOMIC AND MOLECULAR PHYSICS
ATOMS
CHALCOGENIDES
CHARGED PARTICLES
COOLING
DIFFUSION
DOPPLER EFFECT
ELECTRONIC STRUCTURE
ELECTRONS
ELEMENTARY PARTICLES
FERMIONS
INTERMEDIATE STATE
IONS
KINETICS
LASERS
LEPTONS
LIFETIME
MOLECULAR IONS
MOLECULES
OXIDES
OXYGEN COMPOUNDS
PARITY
PARTICLE PROPERTIES
REACTION KINETICS
SILICON COMPOUNDS
SILICON OXIDES
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Zusammenfassung:Analogous to the extension of laser cooling techniques from two-level to three-level atoms, Doppler cooling of molecules with an intermediate electronic state is considered. In particular, we use a rate-equation approach to simulate cooling of SiO{sup +}, in which population buildup in the intermediate state is prevented by its short lifetime. We determine that Doppler cooling of SiO{sup +} can be accomplished without optically repumping from the intermediate state, at the cost of causing undesirable parity flips and rotational diffusion. Since the necessary repumping would require a large number of continuous-wave lasers, optical pulse shaping of a femtosecond laser is proposed as an attractive alternative. Other candidate three-electron-level molecules are also discussed.
ISSN:1050-2947
1094-1622
DOI:10.1103/PhysRevA.83.053404