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nm optical microscopy." Optics Express 21(22): 26219-26226, 2013. http://dx.doi.org/10.1364/Oe.21.026219 Optics; Semiconductors; Ultraviolet; Electromagnetic simulations; Lasers; Nanoscale
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science and technology including, but not limited to, quantum information, photonics, quantum optics, cold atoms, neutral atoms, trapped ions, solid state qubits and quantum simulation. An applicant must
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Quantum and Low-Dimensional Materials Quantum Communications, Sensing & Simulation Quantum Optics & Quantum Information Nanophotonics, Condensed Matter Physics & Light-Matter Interactions Medical Optics
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simulations of the proposed functionalities, including the waveguide ability to detect the presence of analytes. These sensing capabilities will be explored through both optical absorption mechanisms and phase
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optical simulation skills (Preferably in Zemax) Strong programming skills (preferably in Python) Experience in deep learning algorithms is a plus Ability to work in a highly international team and
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& Optoelectronics NanoPhotonics & NanoMechanics Ultracold Quantum Gases Quantum and Low-Dimensional Materials Quantum Communications, Sensing & Simulation Quantum Optics & Quantum Information Nanophotonics, Condensed
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to allow the performance simulation of optical designs employing non-classical components, such as meta-optical elements. Throughout your traineeship, you will collaborate with a multidisciplinary team of
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is preferred Familiarity with cleanroom fabrication processes for semiconductor or photonic devices Good written and oral communication skills Proficiency in optical/photonic simulation tools (e.g
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novel nanomaterials for next-generation optical and electronic applications, including integrated optical devices, sensors and actuators, and energy harvesting. For more details, please view https
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in Quantum Optical Physics: Theoretical, Simulation, Modeling for Experimental Design Title: Postdoctoral Fellow, physics Appointment Status: Non-tenure track Department: Department of Physics, Indiana