Low Threshold Organic Semiconductor Lasers
Wang, Yue, (La (Xi'An Jiaotong University, China)
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Description for Low Threshold Organic Semiconductor Lasers
Paperback. This book focuses on the development of miniature plastic lasers that can be powered by LEDs and the application of these lasers as highly sensitive sensors for vapors of nitroaromatic explosives. Series: Springer Theses. Num Pages: 180 pages, 64 black & white illustrations, 73 colour illustrations, biography. BIC Classification: TBN; TJFD5; TJFN; TTBL. Category: (P) Professional & Vocational. Dimension: 235 x 155 x 10. Weight in Grams: 285.
This thesis focuses on two areas - the development of miniature plastic lasers that can be powered by LEDs, and the application of these lasers as highly sensitive sensors for vapours of nitroaromatic explosives (e.g. TNT). Polymer lasers are extremely compact visible lasers; the research described in the thesis is groundbreaking, driving forward the technology and physical understanding to allow these lasers to be routinely pumped by a single high-power LED. A notable advance in the work is the demonstration of nanoimprinted polymer lasers, which exhibit the world's lowest pump threshold densities by two orders of magnitude. The thesis also ... Read more
This thesis focuses on two areas - the development of miniature plastic lasers that can be powered by LEDs, and the application of these lasers as highly sensitive sensors for vapours of nitroaromatic explosives (e.g. TNT). Polymer lasers are extremely compact visible lasers; the research described in the thesis is groundbreaking, driving forward the technology and physical understanding to allow these lasers to be routinely pumped by a single high-power LED. A notable advance in the work is the demonstration of nanoimprinted polymer lasers, which exhibit the world's lowest pump threshold densities by two orders of magnitude. The thesis also ... Read more
Product Details
Format
Paperback
Publication date
2016
Publisher
Springer International Publishing AG Switzerland
Number of pages
180
Condition
New
Series
Springer Theses
Number of Pages
164
Place of Publication
Cham, Switzerland
ISBN
9783319347813
SKU
V9783319347813
Shipping Time
Usually ships in 15 to 20 working days
Ref
99-15
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