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Quantum Meta-Engineering

critical foundations for analysis, modeling and design

Category Archives: Model Reduction

“Nonlinear quantum behavior of ultrashort-pulse optical parametric oscillators,” T. Onodera, E. Ng, N. Lörch, A. Yamamura, R. Hamerly, P. L. McMahon, A. Marandi and H. Mabuchi, arXiv:1811.10583

Posted byHideoSeptember 25, 2019September 28, 2019Posted inDynamical Systems, Model Reduction, Photonics

“Factorization of Linear Quantum Systems with Delayed Feedback,” G. Tabak, R. Hamerly and H. Mabuchi, arXiv:1803.01539

Posted byHideoSeptember 25, 2019September 28, 2019Posted inModel Reduction

“Low-dimensional manifolds for exact representation of open quantum systems,” N. Tezak, N. H. Amini and H. Mabuchi, Phys. Rev. A 96, 062113 (2017); arXiv:1704.05369

Posted byHideoSeptember 25, 2019September 28, 2019Posted inDynamical Systems, Model Reduction

“Reduced models and design principles for half-harmonic generation in synchronously-pumped optical parametric oscillators,” R. Hamerly, A. Marandi, M. Jankowski, M. M. Fejer, Y. Yamamoto and H. Mabuchi, Phys. Rev. A 94, 063809 (2016); arXiv:1608.02042

Posted byHideoSeptember 25, 2019September 28, 2019Posted inDynamical Systems, Model Reduction

“Trapped Optical Cavity Modes in Linear Quantum Stochastic Networks with Delays,” G. Tabak and H. Mabuchi, EPJ Quantum Technology 3:3 (2016); arXiv:1510.08942

Posted byHideoSeptember 24, 2019September 28, 2019Posted inModel Reduction

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Biophysics Coherent Ising Machine Dynamical Systems Feedback/Control Model Reduction Photonics Quantum Materials Uncategorized

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348 Via Pueblo, Stanford CA 94305

Research group website of

Hideo Mabuchi
Department of Applied Physics
Stanford University

Our greatest challenge yet may be to find the discipline not to let our revamping of core engineering methodologies be too narrowly driven by the earliest insights of 1990s quantum computation.

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