Karel Lemr Website

Research

My research interests include:

experimental quantum optics,
quantum information processing,
quantum machine learning and
color science.

I am a member of the Multiphoton quantum lab in the Joint Laboratory of Optics (Falculty of Science, Palacky University).

Top 10 papers:

H.-Y. Ku, J. Kadlec, A. Černoch, M. T. Quintino, et al., Quantifying Quantumness of Channels Without Entanglement, PRX Quantum 3, 020338 (2022).
K. Bartkiewicz, C. Gneiting, A. Černoch, K. Jiráková, K. Lemr, F. Nori, Experimental kernel-based quantum machine learning in finite feature space, Sci. Rep. 10, 12356 (2020).
A. Barasiński, A. Černoch, K. Lemr, Demonstration of Controlled Quantum Teleportation for Discrete Variables on Linear Optical Devices, Phys. Rev. Lett. 122, 170501 (2019).
V. Trávníček, K. Bartkiewicz, A. Černoch, K. Lemr, Experimental Measurement of the Hilbert-Schmidt Distance between Two-Qubit States as a Means for Reducing the Complexity of Machine Learning, Phys. Rev. Lett. 123, 260501 (2019).
K. Bartkiewicz, A. Černoch, G. Chimczak, K. Lemr, A. Miranowicz, F. Nori, Experimental quantum forgery of quantum optical money, NPJ Quant. Inf. 3, 7 (2017).
K. Lemr, K. Bartkiewicz, A. Černoch, M. Dušek, and J. Soubusta, Experimental Implementation of Optimal Linear-Optical Controlled-Unitary Gates, Phys. Rev. Lett. 114, 153602 (2015).
K. Bartkiewicz, K. Lemr, A. Černoch, J. Soubusta, and A. Miranowicz, Experimental Eavesdropping Based on Optimal Quantum Cloning, Phys. Rev. Lett. 110, 173601 (2013).
K. Bartkiewicz, B. Horst, K. Lemr, and A. Miranowicz, Entanglement estimation from Bell inequality violation, Phys. Rev. A 88, 052105 (2013).
K. Lemr, K. Bartkiewicz, A. Černoch, and J. Soubusta, Resource-efficient linear-optical quantum router, Phys. Rev. A 87, 062333 (2013).
K. Lemr, A. Černoch, J. Soubusta, K. Kieling, J. Eisert, and M. Dušek, Experimental Implementation of the Optimal Linear-Optical Controlled Phase Gate, Phys. Rev. Lett. 106, 013602 (2011).

Check all my publications at ORCID.