Marina Mazzoni scite author profile

We report the first observation of translationally cold ( approximately 90 &mgr;K) Rb2 molecules. They are produced in a magneto-optical trap in their triplet ground state. The detection is performed by selective mass spectroscopy after two-photon ionization into Rb+2, resonantly enhanced through the intermediate a (3)Sigma(+)(u)-->2 (3)Pi(g) molecular band. The two rubidium isotopes present very different types of behavior that are interpreted in terms of their respective collisional properties.

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Determination of the87Rb5pstate dipole matrix element and radiative lifetime from the photoassociation spectroscopy of the
Gutterres
¹
,
Amiot
²
,
Fioretti
³

et al. 2002
Phys. Rev. A

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We present a detailed study of the 0 g Ϫ ( P 3/2 ) pure long-range electronic state of the 87 Rb 2 molecule. The high-resolution spectral data provided by photoassociative spectroscopy of 87 Rb 2 is analyzed by using the generalized simulated annealing method. The dipole matrix element of the 5p 87 Rb atomic state and other effective asymptotic parameters for the 0 g Ϫ ( P 3/2 ) long-range state are determined and a complete analytical description of the potential well is obtained. We extract a radiative lifetime of the 5 P 3/2 and 5 P 1/2 states equal to 26.25͑8͒ ns and 27.75͑8͒ ns, respectively, with a precision ͑0.3%͒ comparable to atomic physics experiment.

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Analysis of wavelength-dependent photoisomerization quantum yields in bilirubins by fitting two exciton absorption bands

Mazzoni

Agati

Troup

et al. 2003

J. Opt. A: Pure Appl. Opt.

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A computational study of the excited states of bilirubin IX

Granucci

Mazzoni

Persico

et al. 2005

Phys. Chem. Chem. Phys.

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We have determined the lowest excited states of bilirubin IX by TD-DFT calculations. The lowest pair of excited states, S(1) and S(2), turn out to be of charge-transfer (CT) nature. Although DFT based methods tend to underestimate the energy of CT states, the small oscillator strengths we have computed indicate that such states may actually exist in this spectral region, but would have escaped spectroscopic detection. The next pair of excited states, S(3) and S(4), account for the most prominent spectral feature of bilirubin. They can be accurately described by the exciton coupling model, as we show by a thorough analysis of wavefunctions and properties. This finding therefore supports the interpretation of bilirubin photoisomerization behaviour, based on the exciton coupling model.

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Marina Mazzoni

Cold Rubidium Molecules Formed in a Magneto-Optical Trap

Determination of the87Rb5pstate dipole matrix element and radiative lifetime from the photoassociation spectroscopy of the
Gutterres
¹
,
Amiot
²
,
Fioretti
³

et al. 2002
Phys. Rev. A

Analysis of wavelength-dependent photoisomerization quantum yields in bilirubins by fitting two exciton absorption bands

A computational study of the excited states of bilirubin IX

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Marina Mazzoni

Cold Rubidium Molecules Formed in a Magneto-Optical Trap

Determination of the87Rb5pstate dipole matrix element and radiative lifetime from the photoassociation spectroscopy of theGutterres1, Amiot2, Fioretti3 et al. 2002Phys. Rev. A

Analysis of wavelength-dependent photoisomerization quantum yields in bilirubins by fitting two exciton absorption bands

A computational study of the excited states of bilirubin IX

Contact Info

Product

Resources

About

Determination of the87Rb5pstate dipole matrix element and radiative lifetime from the photoassociation spectroscopy of the
Gutterres
¹
,
Amiot
²
,
Fioretti
³

et al. 2002
Phys. Rev. A