@incollection{UBHD-68974649, author={Baumbach, Andreas and Klassert, Robert and Czischek, Stefanie and G{\"a}rttner, Martin and Petrovici, Mihai A.}, title={Quantum many-body states}, subtitle={a novel neuromorphic application}, year={2022}, pages={104-106}, language={eng}, isbn={9781450395595}, note={Gesehen am 17.10.2022}, booktitle={Neuro-Inspired Computational Elements Conference}, doi={10.1145/3517343.3517379}, } @incollection{UBHD-68348396, author={Czischek, Stefanie and G{\"a}rttner, Martin and Oberthaler, Markus K. and Gasenzer, Thomas}, title={Quenches near criticality of the quantum Ising chain}, subtitle={power and limitations of the discrete truncated Wigner approximation}, year={2018}, language={eng}, note={Gesehen am 18.01.2019}, booktitle={De.arxiv.org}, } @incollection{UBHD-68348959, author={Czischek, Stefanie and G{\"a}rttner, Martin and Gasenzer, Thomas}, title={Quenches near Ising quantum criticality as a challenge for artificial neural networks}, year={2018}, language={eng}, note={Gesehen am 17.01.2019}, booktitle={De.arxiv.org}, } @article{UBHD-68414977, author={Czischek, Stefanie and G{\"a}rttner, Martin and Oberthaler, Markus K. and Gasenzer, Thomas}, title={Quenches near criticality of the quantum Ising chain}, subtitle={power and limitations of the discrete truncated Wigner approximation}, year={2019}, language={eng}, issn={2058-9565}, volume={4(2019}, note={Published 16 October 2018 ; Gesehen am 01.08.2019}, journal={Quantum science and technology}, doi={10.1088/2058-9565/aae3f7}, } @article{UBHD-68348960, author={Czischek, Stefanie and G{\"a}rttner, Martin and Gasenzer, Thomas}, title={Quenches near Ising quantum criticality as a challenge for artificial neural networks}, year={2018}, pages={10 S.}, language={eng}, issn={2469-9969}, volume={98(2018}, note={Gesehen am 17.01.2019}, journal={Physical review}, doi={10.1103/PhysRevB.98.024311}, } @article{UBHD-68503871, author={Czischek, Stefanie and Pawlowski, Jan M. and Gasenzer, Thomas and G{\"a}rttner, Martin}, title={Sampling scheme for neuromorphic simulation of entangled quantum systems}, year={2019}, pages={14 S.}, language={eng}, issn={2469-9969}, volume={100(2019}, note={Gesehen am 11.03.2020}, journal={Physical review}, doi={10.1103/PhysRevB.100.195120}, } @book{UBHD-68466590, author={Czischek, Stefanie}, organization={Universit{\"a}t Heidelberg}, title={Simulating strongly interacting quantum spin systems}, subtitle={from critical dynamics towards entanglement correlations in a classical artificial neural network}, address={Heidelberg}, year={2019}, pages={xi, 199 Seiten}, language={eng}, school={Dissertation, Ruperto-Carola-University of Heidelberg, 2019}, library={UB [Signatur: 2019 U 1008]}, } @book{UBHD-68448812, author={Czischek, Stefanie}, title={Simulating strongly interacting quantum spin systems}, subtitle={from critical dynamics towards entanglement correlations in a classical artificial neural network}, address={Heidelberg}, year={2019}, pages={1 Online-Ressource (xi, 211 Seiten)}, language={eng}, school={Dissertation, Ruperto-Carola-University of Heidelberg, 2019}, doi={10.11588/heidok.00027298}, url={https://nbn-resolving.org/urn:nbn:de:bsz:16-heidok-272980}, library={UB}, } @article{UBHD-68941091, author={Czischek, Stefanie and Baumbach, Andreas and Billaudelle, Sebastian and Cramer, Benjamin and Kades, Lukas and Pawlowski, Jan M. and Oberthaler, Markus K. and Schemmel, Johannes and Petrovici, Mihai A. and Gasenzer, Thomas and G{\"a}rttner, Martin}, title={Spiking neuromorphic chip learns entangled quantum states}, year={2022}, pages={1-20}, language={eng}, issn={2542-4653}, volume={12}, note={Gesehen am 13.07.2022}, journal={SciPost physics}, doi={10.21468/SciPostPhys.12.1.039}, }