Abhay Shukla scite author profile

Periodic intensity variations in the measured Compton profile anisotropies of ordinary ice Ih correspond to distances of 1.72 and 2.85 Å, which are close to the hydrogen bond length and the nearestneighbor O-O distance, respectively. We interpret this result as direct evidence for the substantial covalent nature of the hydrogen bond. Very good quantitative agreement between the data and a fully quantum mechanical bonding model for ice Ih and the disagreement with a purely electrostatic (classical) bonding model support this interpretation and demonstrate how exquisitely sensitive Compton scattering is to the phase of the electronic wave function. [S0031-9007(98)08227-1]

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Analysis of positron lifetime spectra using quantified maximum entropy and a general linear filter

Shukla

Peter

Hoffmann

1993

Nuclear Instruments and Methods in Physics Research Section A:

304

200

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Temperature- and pressure-induced spin-state transitions inLaCoO3

et al. 2006

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We report the continuous variation of the spin moment of cobalt in LaCoO3 across its temperature and pressure-induced spin transitions evidenced with Kβ emission spectra. The first thermal transition is best described by a transition to an orbitally nondegenerate intermediate spin (S=1) state. In parallel, continuous redistribution of the 3d electrons is also indicated by partial fluorescence yield X-ray absorption spectra. At high pressure, our study confirms that the material becomes low spin between 40 and 70 kbar at room temperature.

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A high performance graphene/few-layer InSe photo-detector

2015

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Abhay Shukla

Covalency of the Hydrogen Bond in Ice: A Direct X-Ray Measurement

Analysis of positron lifetime spectra using quantified maximum entropy and a general linear filter

Temperature- and pressure-induced spin-state transitions inLaCoO3

A high performance graphene/few-layer InSe photo-detector

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