Quantum State/Process Tomography
90 papers
Showing 1-12 of 90
A computationally efficient approach to quantum state reconstruction using robust classical shadows.
Sharma S, Akashe S, Upadhyay GM, Lamba AK.
Bohr's complementarity principle tested on a real quantum computer via interferometer experiments
Celia Álvarez Álvarez, Mariamo Mussa Juane
Compressed Sensing Shadow Tomography
Joseph Barreto, Daniel Lidar
Contractive unitary and classical shadow tomography
Yadong Wu, Ce Wang, Juan Yao, Hui Zhai, Yi-Zhuang You, Pengfei Zhang
Deep Generative Network for Cellular-Resolution Optical Coherence Tomography Image Denoising
Chih-Hao Liu, Yin-Wen Lee, You-Syuan Chen, Yi-Chia Chen, Sheng-Lung Huang
Demonstrating and Benchmarking Classical Shadows for Lindblad Tomography
Rune Thinggaard Birke, Johann Bock Severin, Malthe A. Marciniak, Emil Hogedal, Andreas Nylander, Irshad Ahmad, Amr Osman, Janka Biznárová, Marcus Rommel, Anita Fadavi Roudsari, Jonas Bylander, Giovanna Tancredi, Daniel Stilck França, Albert Werner, Christopher W. Warren, Jacob Hastrup, Svend Krøjer, Morten Kjaergaard
Dispersion in nonlinear interferometry: implications for optical coherence tomography with undetected photons
Ivan Zorin, Paul Gattinger
Efficient Threshold ML-DSA
Sofía Celi, Rafael del Pino, Thomas Espitau, Guilhem Niot, Thomas Prest
Error-mitigated quantum state tomography using neural networks
Yixuan Hu, Mengru Ma, Jiangwei Shang
Fast semantic image annotation and retrieval with quantum firefly-based multi-label learning
Lina J. Abu Shaheen, Oday Ali Hassen, Saad M. Darwish, Adel A. Elzoghabi
Forecasting quantum observables: A compressed sensing approach with performance guarantees
Anonymous
Instance-optimal high-precision shadow tomography with few-copy measurements: A metrological approach
Senrui Chen, Weiyuan Gong, Sisi Zhou