PAIRS: A scalable geo-spatial data analytics platform
Levente J. Klein, F. Marianno, et al.
Big Data 2015
Coherence properties of the infrared thermal radiation from individual heated nanowires are investigated as a function of nanowire dimensions. Interfering the thermally induced radiation from a heated nanowire with its image in a nearby moveable mirror, well-defined fringes are observed. From the fringe visibility, the coherence length of the thermal emission radiation from the narrowest nanowires was estimated to be at least 20 μm, which is much larger than expected from a classical blackbody radiator. Significant increases in coherence and emission efficiency are observed for smaller nanowires. © 2008 American Institute of Physics.
Levente J. Klein, F. Marianno, et al.
Big Data 2015
Jason D. Renwick, Levente J. Klein, et al.
WF-IoT 2016
Levente J. Klein, Hendrik Hamann, et al.
IEEE IoT Journal
Levente J. Klein, Sergio Bermudez, et al.
SEMI-THERM 2012