Time-resolved studies of ultrafast wavepacket dynamics in hydrogen molecules

C. R. Calvert; W. A. Bryan; W. R. Newell; I. D. Williams

doi:10.1016/j.physrep.2009.12.004

Time-resolved studies of ultrafast wavepacket dynamics in hydrogen molecules

C. R. Calvert^*, W. A. Bryan, W. R. Newell, I. D. Williams

^*Corresponding author for this work

School of Mathematics and Physics

Research output: Contribution to journal › Article › peer-review

71 Citations (Scopus)

336 Downloads (Pure)

Abstract

Recent advances in the study of quantum vibrations and rotations in the fundamental hydrogen molecules are reported. Using the deuterium molecules (D2+ and D2) as exemplars, the application of ultrafast femtosecond pump-probe experiments to study the creation and time-resolved imaging of coherent nuclear wavepackets is discussed. The ability to study the motion of these fundamental molecules in the time-domain is a notable milestone, made possible through the advent of ultrashort intense laser pulses with durations on sub-vibrational (and sub-rotational) timescales. Quantum wavepacket revivals are characterised for both vibrational and rotational degrees of freedom and quantum models are used to provide a detailed discussion of the underlying ultrafast physical dynamics for the specialist and non-specialist alike.

Original language	English
Pages (from-to)	1-28
Number of pages	28
Journal	Physics Reports
Volume	491
Issue number	1
Early online date	04 Dec 2009
DOIs	https://doi.org/10.1016/j.physrep.2009.12.004
Publication status	Published - 01 Jun 2010

ASJC Scopus subject areas

General Physics and Astronomy

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title = "Time-resolved studies of ultrafast wavepacket dynamics in hydrogen molecules",

abstract = "Recent advances in the study of quantum vibrations and rotations in the fundamental hydrogen molecules are reported. Using the deuterium molecules (D2+ and D2) as exemplars, the application of ultrafast femtosecond pump-probe experiments to study the creation and time-resolved imaging of coherent nuclear wavepackets is discussed. The ability to study the motion of these fundamental molecules in the time-domain is a notable milestone, made possible through the advent of ultrashort intense laser pulses with durations on sub-vibrational (and sub-rotational) timescales. Quantum wavepacket revivals are characterised for both vibrational and rotational degrees of freedom and quantum models are used to provide a detailed discussion of the underlying ultrafast physical dynamics for the specialist and non-specialist alike.",

author = "Calvert, {C. R.} and Bryan, {W. A.} and Newell, {W. R.} and Williams, {I. D.}",

year = "2010",

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AU - Calvert, C. R.

AU - Bryan, W. A.

AU - Newell, W. R.

AU - Williams, I. D.

PY - 2010/6/1

Y1 - 2010/6/1

N2 - Recent advances in the study of quantum vibrations and rotations in the fundamental hydrogen molecules are reported. Using the deuterium molecules (D2+ and D2) as exemplars, the application of ultrafast femtosecond pump-probe experiments to study the creation and time-resolved imaging of coherent nuclear wavepackets is discussed. The ability to study the motion of these fundamental molecules in the time-domain is a notable milestone, made possible through the advent of ultrashort intense laser pulses with durations on sub-vibrational (and sub-rotational) timescales. Quantum wavepacket revivals are characterised for both vibrational and rotational degrees of freedom and quantum models are used to provide a detailed discussion of the underlying ultrafast physical dynamics for the specialist and non-specialist alike.

AB - Recent advances in the study of quantum vibrations and rotations in the fundamental hydrogen molecules are reported. Using the deuterium molecules (D2+ and D2) as exemplars, the application of ultrafast femtosecond pump-probe experiments to study the creation and time-resolved imaging of coherent nuclear wavepackets is discussed. The ability to study the motion of these fundamental molecules in the time-domain is a notable milestone, made possible through the advent of ultrashort intense laser pulses with durations on sub-vibrational (and sub-rotational) timescales. Quantum wavepacket revivals are characterised for both vibrational and rotational degrees of freedom and quantum models are used to provide a detailed discussion of the underlying ultrafast physical dynamics for the specialist and non-specialist alike.

U2 - 10.1016/j.physrep.2009.12.004

DO - 10.1016/j.physrep.2009.12.004

M3 - Article

SN - 0370-1573

VL - 491

SP - 1

EP - 28

JO - Physics Reports

JF - Physics Reports

IS - 1

ER -

Time-resolved studies of ultrafast wavepacket dynamics in hydrogen molecules

Abstract

ASJC Scopus subject areas

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