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magnetic resonance. The project is to demonstrate coherent control and cooling of quantum processors. The dedicated research facilities include low temperature setups (dilution refrigerators, He-3 systems
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at the University of Waterloo and the Institute for Quantum Computing. Dedicated research facilities include state-of-the-art faculties for materials growth and characterization, a wide range of low
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Hands-on experience building, operating, and maintaining both the hardware and software of complex scientific apparatuses. Our quantum simulator comprises an ultra-high vacuum system, high-power low-noise
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background and strong analytical skills in quantum physics and applied mathematics, including familiarity with exact and approximate methods to solve for and control the time-evolution of quantum many-body
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, and list of publications. Contact information for at least two academic or professional references. Principal Investigators: Prof. Jonathan Baugh, Prof. Michael Reimer About the Institute for Quantum
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condensed matter physics and neutron scattering Relevant Fields: Phase transitions, topological materials, neutron optics, matter wave interferometry Required skills: Hands-on experience with low
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fabrications, low-temperature cryogenic transport measurements, Design/Modeling of CNT quantum electronic devices Relevant Fields: Physics, Chemistry, Material Science Engineering, Chemical Engineering, Electric
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: Some of the best and most interested quantum emitters and quantum memory devices are operating an optical wavelength ranges not suitable for satellite-based quantum communication. This PDF role is for