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210   $aVaranasi$cChawkhamba SanskritSeries$d1990
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035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/56209
035   $a(oapen)doab56209
035   $a(EXLCZ)993710000000824756
100   $a20202102d2015      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aPhotonic Integration and Photonics-Electronics Convergence on Silicon Platform
210   $cFrontiers Media SA$d2015
215   $a1 online resource (109 p.)
225 1 $aFrontiers Research Topics
311 08$a9782889196937 
311 08$a2889196933 
330   $aSilicon photonics technology, which has the DNA of silicon electronics technology, promises to provide a compact photonic integration platform with high integration density, mass-producibility, and excellent cost performance. This technology has been used to develop and to integrate various photonic functions on silicon substrate. Moreover, photonics-electronics convergence based on silicon substrate is now being pursued. Thanks to these features, silicon photonics will have the potential to be a superior technology used in the construction of energy-efficient cost-effective apparatuses for various applications, such as communications, information processing, and sensing. Considering the material characteristics of silicon and difficulties in microfabrication technology, however, silicon by itself is not necessarily an ideal material. For example, silicon is not suitable for light emitting devices because it is an indirect transition material. The resolution and dynamic range of silicon-based interference devices, such as wavelength filters, are significantly limited by fabrication errors in microfabrication processes. For further performance improvement, therefore, various assisting materials, such as indium-phosphide, silicon-nitride, germanium-tin, are now being imported into silicon photonics by using various heterogeneous integration technologies, such as low-temperature film deposition and wafer/die bonding. These assisting materials and heterogeneous integration technologies would also expand the application field of silicon photonics technology. Fortunately, silicon photonics technology has superior flexibility and robustness for heterogeneous integration. Moreover, along with photonic functions, silicon photonics technology has an ability of integration of electronic functions. In other words, we are on the verge of obtaining an ultimate technology that can integrate all photonic and electronic functions on a single Si chip. This e-Book aims at covering recent developments of the silicon photonic platform and novel functionalities with heterogeneous material integrations on this platform.
606   $aHistory of engineering and technology$2bicssc
610   $aadditional waveguide system
610   $aBandgap tuning
610   $abio-chemical applications
610   $agermanium-based emitter
610   $aIII-V semiconductors
610   $aphotonic integration
610   $asilicon photonics
610   $atelecommunications applications
610   $aWafer bonding
615  7$aHistory of engineering and technology
700   $aVivien$b Laurent$4auth$01782219
702   $aDan-Xia Xu$4auth
702   $aJifeng Liu$4auth
702   $aBaba$b Toshihiko$4auth
702   $aYamada$b Koji$4auth
906   $aBOOK
912   $a9910137088003321
996   $aPhotonic Integration and Photonics-Electronics Convergence on Silicon Platform$94308168
997   $aUNINA