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Lewis G. Carpenter received the bachelor’s (First Class) degree in electrical engineering from the University of Southampton in 2009, and the Ph.D. degree from the Optoelectronics Research Centre (ORC), University of Southampton, in 2013, under the supervision of Prof. Smith and Dr. Gates. His Ph.D. focused on precision dicing (sawing) and micromilling techniques for silica photonic device fabrication, and particularly for the production of micro optomechanical sensors and ultra-smooth micron scale features for integrated optics. Working as a Research Fellow in 2014, he researched the integration of precision micromilled structures with photonic waveguides for the application to optofluidic evanescent field sensing. He is currently a Knowledge Transfer Partnership (KTP) Associate with Covesion Ltd., and ORC. Currently, as a KTP Associate, he develops ridge waveguides in periodically poled lithium niobate for high efficient wavelength conversion, with special interest in the application of these technologies to atom/ion trapping and single photon sources. He received the National Grid Award for the highest awarded dissertation mark.
A recognized and trusted expert in photonics working within the area Quantum Technology. A key member of the team that developed zinc doped MgO:PPLN (periodically poled lithium niobate) ridge waveguides for Covesion while working at the University of Southampton. PPLN waveguides are a key piece of Quantum Technology for quantum computing/memories (atom/ion trapping) and quantum communications (single photon generation). The PPLN waveguides developed generate new wavelengths of light at a multi-watt level with >50 % device efficiencies. During the device development major contributions included, waveguide design/modelling, cleanroom and ultra-precision machining fabrication process development, and nonlinear photonic characterisation.
Received a PhD in 2013 from Optoelectronics Research Centre (ORC) University of Southampton, under the supervision of Peter GR Smith. Focusing on creating ultra-smooth micron scale features for integrated optics. Pioneering ductile mode machining with ultra-precision dicing saws and micromilling techniques. Using these ductile mode machining techniques to create a variety of photonic devices - such as micro optomechanical systems, physical/biological/refractive index sensors, and amplitude/phase modulators - in a plethora of integrated material systems using silica, lithium niobite, silicon, gallium arsenide, germanium, chalcogenide, etc. Received a first class Bachelors in Electrical Engineering from the University of Southampton (2009) and won the National Grid award for the highest awarded dissertation mark.
Currently, working as Covesion’s Head of Delivery, focusing on R&D and device fabrication of both PPLN waveguides and bulk devices.
Southampton,Hampshire,United Kingdom,SO17 1BJ
Publication Topics
lithium compounds,optical materials,optical waveguides,optical harmonic generation,ridge waveguides,optical fabrication,radiation pressure,rubidium,integrated optics,laser cooling,magneto-optical effects,optical phase matching,quantum optics,avalanche photodiodes,ductility,elemental semiconductors,error statistics,excited states,fibre optic sensors,high-speed optical techniques,image recognition,integrated optoelectronics,light interferometry,nonlinear optics,optical fibre fabrication
A recognized and trusted expert in photonics working within the area Quantum Technology. A key member of the team that developed zinc doped MgO:PPLN (periodically poled lithium niobate) ridge waveguides for Covesion while working at the University of Southampton. PPLN waveguides are a key piece of Quantum Technology for quantum computing/memories (atom/ion trapping) and quantum communications (single photon generation). The PPLN waveguides developed generate new wavelengths of light at a multi-watt level with >50 % device efficiencies. During the device development major contributions included, waveguide design/modelling, cleanroom and ultra-precision machining fabrication process development, and nonlinear photonic characterisation.
Received a PhD in 2013 from Optoelectronics Research Centre (ORC) University of Southampton, under the supervision of Peter GR Smith. Focusing on creating ultra-smooth micron scale features for integrated optics. Pioneering ductile mode machining with ultra-precision dicing saws and micromilling techniques. Using these ductile mode machining techniques to create a variety of photonic devices - such as micro optomechanical systems, physical/biological/refractive index sensors, and amplitude/phase modulators - in a plethora of integrated material systems using silica, lithium niobite, silicon, gallium arsenide, germanium, chalcogenide, etc. Received a first class Bachelors in Electrical Engineering from the University of Southampton (2009) and won the National Grid award for the highest awarded dissertation mark.
Currently, working as Covesion’s Head of Delivery, focusing on R&D and device fabrication of both PPLN waveguides and bulk devices.
Southampton,Hampshire,United Kingdom,SO17 1BJ
Publication Topics
lithium compounds,optical materials,optical waveguides,optical harmonic generation,ridge waveguides,optical fabrication,radiation pressure,rubidium,integrated optics,laser cooling,magneto-optical effects,optical phase matching,quantum optics,avalanche photodiodes,ductility,elemental semiconductors,error statistics,excited states,fibre optic sensors,high-speed optical techniques,image recognition,integrated optoelectronics,light interferometry,nonlinear optics,optical fibre fabrication
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论文共 116 篇作者统计合作学者相似作者
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2023 IEEE PHOTONICS CONFERENCE, IPCpp.1-2, (2023)
Sarah Baranowski, Anh Quoc Nguyen,Mohammad Jobayer Hossain,Seth Kruger,Lewis G. Carpenter,Amit Dikshit,Colin McDonough, D.L. Harame
IMAPS symposia and conferencesno. Issue 1 (2023)
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Stefan F. Preble, Barton Bergman,Lewis G. Carpenter,Lukas Chrostowski,Amit Dikshit,Michael L. Fanto, Wenhua Lin,Matthew van Niekerk,M. Rakib Uddin, Vijay Soorya Shunmuga Sundaram
Elsevier eBookspp.159-199, (2023)
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2023 IEEE PHOTONICS CONFERENCE, IPCpp.1-2, (2023)
INTEGRATED OPTICS: DEVICES, MATERIALS, AND TECHNOLOGIES XXVII (2023)
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INTEGRATED OPTICS: DEVICES, MATERIALS, AND TECHNOLOGIES XXVI (2022)
SILICON PHOTONICS XVII (2022)
Amit Dikshit, Jin Wallner, Barton Bergman,M. Rakib Uddin,Lewis G. Carpenter,Yukta P. Timalsina,Amir Begovic, Chandra Casline Cotter,Nicholas M. Fahrenkopf,Christopher Baiocco,Gerald Leake,David L. Harame
SILICON PHOTONICS XVII (2022)
user-6073b1344c775e0497f43bf9(2021)
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