Preface- Ultrafast Science: Progress and Opportunities

Mathur, D.

doi:10.16943/ptinsa/2015/v81i2/48103

Proceedings of the Indian National Science Academy

2015

DOI: 10.16943/ptinsa/2015/v81i2/48103

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Preface- Ultrafast Science: Progress and Opportunities

D. Mathur¹

Abstract: We present in this Special Section a collection of three articles that were adjudged, after peer review, to be worthy of publication from among a number of contributed papers that were presented at this meeting. By way of an overview, some recent examples are presented of ultrafast dynamics explored by physicists, chemists and biologists in the country.

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Selective breaking of bonds in water with intense, 2-cycle, infrared laser pulses

Mathur

Dota

Dey

et al. 2015

The Journal of Chemical Physics

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One of the holy grails of contemporary science has been to establish the possibility of preferentially breaking one of several bonds in a molecule. For instance, the two O-H bonds in water are equivalent: given sufficient energy, either one of them is equally likely to break. We report bond-selective molecular fragmentation upon application of intense, 2-cycle pulses of 800 nm laser light: we demonstrate up to three-fold enhancement for preferential bond breaking in isotopically substituted water (HOD). Our experimental observations are rationalized by means of ab initio computations of the potential energy surfaces of HOD, HOD(+), and HOD(2+) and explorations of the dissociation limits resulting from either O-H or O-D bond rupture. The observations we report present a formidable theoretical challenge that need to be taken up in order to gain insights into molecular dynamics, strong field physics, chemical physics, non-adiabatic processes, mass spectrometry, and time-dependent quantum chemistry.

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Selective breaking of bonds in water with intense, 2-cycle, infrared laser pulses

Mathur

Dota

Dey

et al. 2015

The Journal of Chemical Physics

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show abstract

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Preface- Ultrafast Science: Progress and Opportunities

Cited by 1 publication

References 2 publications

Selective breaking of bonds in water with intense, 2-cycle, infrared laser pulses

Selective breaking of bonds in water with intense, 2-cycle, infrared laser pulses

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