Quantum Physics

   

Quantum Light at the Nanoscale

Authors: George Rajna

A collaborative team, led by scientists from the University of Technology Sydney (UTS), developed a highly-sensitive nano-thermometer that uses atom-like inclusions in diamond nanoparticles to accurately measure temperature at the nanoscale. [40] Imagine being able to shape a pulse of light in any conceivable manner—compressing it, stretching it, splitting it in two, changing its intensity or altering the direction of its electric field. [39] When exposed to intense laser pulses, the magnetization of a material can be manipulated very fast. [38]

Comments: 70 Pages.

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[v1] 2019-05-04 09:21:22

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