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200 10$aFundamentals of infrared detector materials /$fMichael A. Kinch
210   $aBellingham, Wash. $cSPIE Press$dc2007
215   $a1 online resource (186 p.)
225 1 $aTutorial texts in optical engineering ;$vv. TT 76
300   $aDescription based upon print version of record.
311   $a0-8194-6731-6 
320   $aIncludes bibliographical references and index.
327   $a1. Introduction. 2. IR detector performance criteria. 2.1. Photon detectors -- 2.2. Thermal detectors.
327   $a3. IR detector materials: a technology comparison. 3.1. Intrinsic direct bandgap semiconductor -- 3.2. Extrinsic semiconductor -- 3.3. Quantum well IR photodetectors (QWIPs) -- 3.4. Silicon schottky barrier detectors -- 3.5. High-temperature superconductor -- 3.6. Conclusions.
327   $a4. Intrinsic direct bandgap semiconductors. 4.1. Minority carrier lifetime -- 4.2. Diode dark current models -- 4.3. Binary compounds -- 4.4. Ternary alloys -- 4.5. Pb1-x SnxTe -- 4.6. Type III superlattices -- 4.7. Type II superlattices -- 4.8. Direct bandgap materials: conclusions.
327   $a5. HgCdTe: material of choice for tactical systems. 5.1. HgCdTe material properties -- 5.2. HgCdTe device architectures -- 5.3. ROIC requirements -- 5.4. Detector performance -- 5.5. HgCdTe: conclusions.
327   $a6. Uncooled detection. 6.1. Thermal detection -- 6.2. Photon detection -- 6.3. Uncooled photon vs. thermal detection limits -- 6.4. Uncooled detection: conclusions.
327   $a7. HgCdTe electron avalanche photodiodes (EAPDs). 7.1. McIntyre's avalanche photodiode model -- 7.2. Physics of HgCdTe EAPDs -- 7.3. Empirical model for electron avalanche gain in HgCdTe -- 7.4. Room-temperature HgCdTe APD performance -- 7.5. Monte Carlo modeling -- 7.6. Conclusions.
327   $a8. Future HgCdTe developments. 8.1. Dark current model -- 8.2. The separate absorption and detection diode structure -- 8.3. Multicolor and multispectral FPAs -- 8.4. High-density FPAs -- 8.5. Low background operation -- 8.6. Higher operating temperatures -- 8.7. Conclusion -- Epilogue -- Appendix A. Mathcad program for HgCdTe diode dark -- Current modeling -- References -- About the author -- Index.
330 3 $aThe choice of available infrared (IR) detectors for insertion into modern IR systems is both large and confusing. The purpose of this volume is to provide a technical database from which rational IR detector selection criteria evolve, and thus clarify the options open to the modern IR system designer. Emphasis concentrates mainly on high-performance IR systems operating in a tactical environment, although there also is discussion of both strategic environments and low- to medium-performance system requirements.
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200 00$aSequence-specific DNA binding agents /$fedited by Michael Waring
205   $a1st ed.
210   $aCambridge $cRSC Pub.$dc2006
215   $a1 online resource (271 p.)
225  0$aRSC biomolecular sciences
300   $aDescription based upon print version of record.
311 08$a9780854043705 
311 08$a0854043705 
320   $aIncludes bibliographical references and index.
327   $aSequence-specific DNA Binding Agents; i_iv; v_vi; vii_xii; 001_028; 029_043; 044_068; 069_095; 096_108; 109_129; 130_151; 152_189; 190_206; 207_232; 233_252; 253_258
330   $aThe binding of antibiotics and drugs to DNA is a fast developing area of research with important applications in medicine, particularly the treatment of cancer. Sequence-specific DNA Binding Agents uniquely discusses key aspects of this topic, providing a novel perspective on the subject. Written by experts in the field, this book discusses diverse modes of binding of antibiotics and drugs to DNA, emphasising matters that are important or promising for cancer treatment. Chapters discuss established agents like actinomycin D but also look at novel drugs with strong potential in chemotherapy suc
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606   $aDNA-drug interactions
606   $aDNA-binding proteins
606   $aGene targeting
606   $aDrug targeting
606   $aChemotherapy
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615  0$aDNA-binding proteins.
615  0$aGene targeting.
615  0$aDrug targeting.
615  0$aChemotherapy.
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