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.  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.  When exposed to intense laser pulses, the magnetization of a material can be manipulated very fast. 
Comments: 70 Pages.
[v1] 2019-05-04 09:21:22
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