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pro vyhledávání: '"Chen, Daniel T."'
Autor:
Li, Xinpeng, Kulkarni, Vinooth, Chen, Daniel T., Guan, Qiang, Jiang, Weiwen, Xie, Ning, Xu, Shuai, Chaudhary, Vipin
Current quantum devices face challenges when dealing with large circuits due to error rates as circuit size and the number of qubits increase. The circuit wire-cutting technique addresses this issue by breaking down a large circuit into smaller, more
Externí odkaz:
http://arxiv.org/abs/2410.20313
Autor:
Chen, Daniel T., Hansen, Ethan H., Li, Xinpeng, Orenstein, Aaron, Kulkarni, Vinooth, Chaudhary, Vipin, Guan, Qiang, Liu, Ji, Zhang, Yang, Xu, Shuai
Quantum circuit cutting has emerged as a promising method for simulating large quantum circuits using a collection of small quantum machines. Running low-qubit "circuit fragments" not only overcomes the size limitation of near-term hardware, but it a
Externí odkaz:
http://arxiv.org/abs/2308.10153
Autor:
Chen, Daniel T., Hansen, Ethan H., Li, Xinpeng, Kulkarni, Vinooth, Chaudhary, Vipin, Ren, Bin, Guan, Qiang, Kuppannagari, Sanmukh, Liu, Ji, Xu, Shuai
Quantum circuit cutting has been proposed to help execute large quantum circuits using only small and noisy machines. Intuitively, cutting a qubit wire can be thought of as classically passing information of a quantum state along each element in a ba
Externí odkaz:
http://arxiv.org/abs/2304.04093
Statistical correlations that can be generated across the nodes in a quantum network depend crucially on its topology. However, this topological information might not be known a priori, or it may need to be verified. In this paper, we propose an effi
Externí odkaz:
http://arxiv.org/abs/2212.07987
Classical shadow tomography is a sample-efficient technique for characterizing quantum systems and predicting many of their properties. Circuit cutting is a technique for dividing large quantum circuits into smaller fragments that can be executed mor
Externí odkaz:
http://arxiv.org/abs/2212.00761
Publikováno v:
Tobacco Induced Diseases. Jun2024, Vol. 22, p1-6. 6p.
Autor:
Gagnon, David A., Dessi, Claudia, Berezney, John P., Chen, Daniel T. -N., Boros, Remi, Dogic, Zvonimir, Blair, Daniel L.
Publikováno v:
Phys. Rev. Lett. 125, 178003 (2020)
Molecular-motor generated active stresses drive the cytoskeleton away from equilibrium, endowing it with tunable mechanical properties that are essential for diverse functions such as cell division and motility[1-5]. Designing analogous biomimetic sy
Externí odkaz:
http://arxiv.org/abs/2004.07331
Autor:
Wu, Kun-Ta, Hishamunda, Jean Bernard, Chen, Daniel T. N., DeCamp, Stephen J., Chang, Ya-Wen, Fernández-Nieves, Alberto, Fraden, Seth, Dogic, Zvonimir
Publikováno v:
Science 355, eaal1979 (2017)
Transport of fluid through a pipe is essential for the operation of macroscale machines and microfluidic devices. Conventional fluids only flow in response to external pressure. We demonstrate that an active isotropic fluid, comprised of microtubules
Externí odkaz:
http://arxiv.org/abs/1705.02030
Publikováno v:
Biophysical Journal 109 (2015) 2562
The motility of cilia and flagella is driven by thousands of dynein motors that hydrolyze adenosine triphosphate (ATP). Despite decades of genetic, biochemical, structural and biophysical studies, some aspects of ciliary motility remain elusive, such
Externí odkaz:
http://arxiv.org/abs/1511.01820
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