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024 7 $a10.1007/978-3-319-24067-1
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100   $a20151006d2016      u|         0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aEnergy-Efficient VCSELs for Optical Interconnects /$fby Philip Moser
205   $a1st ed. 2016.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2016.
215   $a1 online resource (190 p.)
225 1 $aSpringer Theses, Recognizing Outstanding Ph.D. Research,$x2190-5053
300   $a"Doctoral Thesis accepted by the Technische Universita?t Berlin, Deutschland."
311   $a3-319-24065-X 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aIntroduction -- VCSEL Fundamentals -- Dynamic Properties of Oxide-Con?ned VCSELs -- Dynamic Energy E?ciency -- Fabrication of High-speed VCSELs -- VCSEL Design -- 850-nm VCSEL Results -- 980-nm VCSEL Results -- Conclusions and Outlook.
330   $aThis dissertation provides the first systematic analysis of the dynamic energy efficiency of vertical-cavity surface-emitting lasers (VCSELs) for optical interconnects, a key technology to address the pressing ecological and economic issues of the exponentially growing energy consumption in data centers. Energy-efficient data communication is one of the most important ?elds in ?Green Photonics? enabling higher bit rates at signi?cantly reduced energy consumption per bit. In this thesis the static and dynamic properties of GaAs-based oxide-confined VCSELs emitting at 850 nm and 980 nm are analyzed and general rules for achieving energy-efficient data transmission using VCSELs at any wavelength are derived. These rules are verified in data transmission experiments leading to record energy-efficient data transmission across a wide range of multimode optical fiber distances and at high temperatures up to 85°C. Important trade-offs between energy efficiency, temperature stability, modulation bandwidth, low current-density operation and other VCSEL properties are revealed and discussed.
410  0$aSpringer Theses, Recognizing Outstanding Ph.D. Research,$x2190-5053
606   $aLasers
606   $aPhotonics
606   $aSemiconductors
606   $aEnergy consumption
606   $aElectrical engineering
606   $aInformation storage and retrieval
606   $aOptics, Lasers, Photonics, Optical Devices$3https://scigraph.springernature.com/ontologies/product-market-codes/P31030
606   $aSemiconductors$3https://scigraph.springernature.com/ontologies/product-market-codes/P25150
606   $aEnergy Efficiency$3https://scigraph.springernature.com/ontologies/product-market-codes/118000
606   $aCommunications Engineering, Networks$3https://scigraph.springernature.com/ontologies/product-market-codes/T24035
606   $aInformation Storage and Retrieval$3https://scigraph.springernature.com/ontologies/product-market-codes/I18032
615  0$aLasers.
615  0$aPhotonics.
615  0$aSemiconductors.
615  0$aEnergy consumption.
615  0$aElectrical engineering.
615  0$aInformation storage and retrieval.
615 14$aOptics, Lasers, Photonics, Optical Devices.
615 24$aSemiconductors.
615 24$aEnergy Efficiency.
615 24$aCommunications Engineering, Networks.
615 24$aInformation Storage and Retrieval.
676   $a530
700   $aMoser$b Philip$4aut$4http://id.loc.gov/vocabulary/relators/aut$0805082
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910254611303321
996   $aEnergy-Efficient VCSELs for Optical Interconnects$91807554
997   $aUNINA