Overview
- Editors:
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Michael S. Shur
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Rensselaer Polytechnic Institute, Troy, USA
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Artūras Žukauskas
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Vilnius University, Vilnius, Lithuania
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Table of contents (26 papers)
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- A. S. Usikov, Yu. Melnik, A. I. Pechnikov, V. A. Soukhoveev, O. V. Kovalenkov, E. Shapovalova et al.
Pages 15-29
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- S. Einfeldt, S. Figge, T. BÖttcher, D. Hommel
Pages 31-39
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- E. Kuokstis, G. Tamulaitis, M. Asif Khan
Pages 41-58
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- R. Gaska, M. Asif Khan, M. S. Shur
Pages 59-75
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- J.-L. Reverchon, M. Mosca, N. Grandjean, F. Omnes, F. Semond, J.-Y. Duboz et al.
Pages 77-92
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- A. P. Vink, E. Van Der Kolk, P. Dorenbos, C. W. E. Van Eijk
Pages 111-126
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- A. Žukauskas, M. S. Shur, R. Gaska
Pages 127-142
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- E. Muñoz, J. L. Pau, C. Rivera
Pages 161-177
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- A. Georgakilas, E. Dimakis, K. Tsagaraki, M. Androulidaki
Pages 179-188
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- B. Beaumont, J.-P. Faurie, E. Frayssinet, E. Aujol, P. Gibart
Pages 189-197
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- A. L. Gurskii, E. V. Lutsenko, V. Z. Zubialevich, V. N. Pavlovskii, G. P. Yablonskii, K. Kazlauskas et al.
Pages 199-206
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- S. Juršėnas, G. Kurilčik, S. Miasojedovas, A. Žukauskas
Pages 207-214
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- S. Anceau, S. P. Łepkowski, H. Teisseyre, T. Suski, P. Perlin, P. Lefebvre et al.
Pages 215-222
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- W. V. Lundin, A. V. Sakharov, A. F. Tsatsul’nikov, E. E. Zavarin, A. I. Besulkin, A. V. Fomin et al.
Pages 223-231
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- B. Boratynski, M. Tlaczala
Pages 233-238
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- D. Čiplys, A. Sereika, R. Rimeika, R. Gaska, M. Shur, J. Yang et al.
Pages 239-246
About this book
Infrared and visible light LEDs and photodetectors have found numerous applications and have become a truly enabling technology. The promise of solid state lighting has invigorated interest in white light LEDs. Ultraviolet LEDs and solar blind photodetectors represent the next frontier in solid state emitters and hold promise for many important applications in biology, medi cine, dentistry, solid state lighting, displays, dense data storage, and semi conductor manufacturing. One of the most important applications is in sys tems for the identification of hazardous biological agents. Compared to UV lamps, UV LEDs have lower power consumption, a longer life, compactness, and sharper spectral lines. UV LEDs can provide a variety of UV spectra and have shape and form factor flexibility and rugged ness. Using conventional phosphors, UV LEDs can generate white light with high CRI and high efficiency. If quantum cutter phosphors are developed, white light generation by UV LEDs might become even more efficient. Advances in semiconductor materials and in improved light extraction techniques led to the development of a new generation of efficient and pow erful visible high-brightness LEDs and we expect that similar improvements will be achieved in solid-state UV technology.
Editors and Affiliations
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Rensselaer Polytechnic Institute, Troy, USA
Michael S. Shur
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Vilnius University, Vilnius, Lithuania
Artūras Žukauskas