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10 April 2024 Quantum packaging for room-temperature quantum transducers
Daniel Lopez
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Proceedings Volume PC12956, Novel Patterning Technologies 2024; PC129560D (2024) https://doi.org/10.1117/12.3012324
Event: SPIE Advanced Lithography + Patterning, 2024, San Jose, California, United States
Abstract
Quantum sensors are compact sensors that leverage quantum-matter/optical interactions to provide a measurement well-defined by fundamental physics, enabling self-calibrated measurements and offering an entirely independent detection paradigm. Atoms and molecules are excellent quantum objects for room-temperature transduction because they provide extensive scalability in energy and don't have the typical limitations introduced by standard microfabrication processes (variability, defects, yield, etc.). Until now, there has been no significant effort to leverage recent advances in packaging and photonics technology to assemble these unconventional 3DHI transducers in a scalable process that will propel this critical technology from benchtop to fieldable applications. In this presentation, I will describe the advantages of using Rydberg atoms for room-temperature quantum sensing, the novel consumer applications they would enable, and our progress in developing a quantum packaging technology compatible with semiconductor manufacturing techniques.
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Daniel Lopez "Quantum packaging for room-temperature quantum transducers", Proc. SPIE PC12956, Novel Patterning Technologies 2024, PC129560D (10 April 2024); https://doi.org/10.1117/12.3012324
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KEYWORDS
Transducers
Packaging
Quantum technologies
Quantum detection
Quantum technology applications
Quantum limits
Quantum processes
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