Article citationsMore>>
Robinson, T.S., Consoli, F., Giltrap, S., Eardley, S.J., Hicks, G.S., Ditter, E.J., Ettlinger, O., Stuart, N.H. Notley, M., De Angelis, R., Najmudin, Z. and Smith, R.A. (2017) Low-Noise Time-Resolved Optical Sensing of Electromagnetic Pulses from Petawatt Laser-Matter Interaction. Scientific Reports, 7, Article Number: 983.
https://doi.org/10.1038/s41598-017-01063-1
has been cited by the following article:
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TITLE:
The Fundamental Mechanism for the Collision/Pressure Induced Optic Effect
AUTHORS:
Wei-Xing Xu
KEYWORDS:
Electro-Optic Effect, Magnetic-Optic Effect, Pressure-Optic Effect, Molecular Beam Technique, Laser Technology, Chemical Reaction Dynamics, Collision-Induced Optic Effect, Pressure-Induced Optic Effect
JOURNAL NAME:
Optics and Photonics Journal,
Vol.8 No.4,
April
18,
2018
ABSTRACT: In this work, the fundamental mechanism regarding the collision and pressure induced optic effect is elucidated. Based on the concept of the collision-relaxation/the pressure-release induced optic effect put forth here, a new laser technology may be developed. Furthermore, our work also makes the understanding the photon involved chemical reaction become much clear and rationalized.