| % ============================================================================= | |
| % refs.bib - Bibliography for Branch-Transfer IBM Hardware Experiment | |
| % ============================================================================= | |
| % ----------------------------------------------------------------------------- | |
| % PRIMARY REFERENCE: Violaris inter-branch communication protocol | |
| % ----------------------------------------------------------------------------- | |
| @misc{violaris2026interbranch, | |
| title = {Quantum observers can communicate across multiverse branches}, | |
| author = {Violaris, Maria}, | |
| year = {2026}, | |
| eprint = {2601.08102}, | |
| archivePrefix= {arXiv}, | |
| primaryClass = {quant-ph}, | |
| doi = {10.48550/arXiv.2601.08102}, | |
| url = {https://arxiv.org/abs/2601.08102}, | |
| note = {arXiv:2601.08102} | |
| }% ----------------------------------------------------------------------------- | |
| % WIGNER'S FRIEND: Foundational and recent references | |
| % ----------------------------------------------------------------------------- | |
| @article{wigner1961remarks, | |
| title = {Remarks on the mind-body question}, | |
| author = {Wigner, Eugene P.}, | |
| journal = {The Scientist Speculates}, | |
| editor = {Good, I. J.}, | |
| pages = {284--302}, | |
| year = {1961}, | |
| publisher = {Heinemann} | |
| } | |
| @article{frauchiger2018quantum, | |
| title = {Quantum theory cannot consistently describe the use of itself}, | |
| author = {Frauchiger, Daniela and Renner, Renato}, | |
| journal = {Nature Communications}, | |
| volume = {9}, | |
| number = {1}, | |
| pages = {3711}, | |
| year = {2018}, | |
| publisher = {Nature Publishing Group}, | |
| doi = {10.1038/s41467-018-05739-8} | |
| } | |
| @article{brukner2018no, | |
| title = {A no-go theorem for observer-independent facts}, | |
| author = {Brukner, {\v{C}}aslav}, | |
| journal = {Entropy}, | |
| volume = {20}, | |
| number = {5}, | |
| pages = {350}, | |
| year = {2018}, | |
| publisher = {MDPI}, | |
| doi = {10.3390/e20050350} | |
| } | |
| % ----------------------------------------------------------------------------- | |
| % EXPERIMENTAL WIGNER'S FRIEND / OBSERVER-AS-CIRCUIT IMPLEMENTATIONS | |
| % ----------------------------------------------------------------------------- | |
| @article{proietti2019experimental, | |
| title = {Experimental Test of Local Observer Independence}, | |
| author = {Proietti, Massimiliano and Pickston, Alexander and Graffitti, Francesco and Barrow, Peter and Kundys, Dmytro and Branciard, Cyril and Ringbauer, Martin and Fedrizzi, Alessandro}, | |
| journal = {Science Advances}, | |
| volume = {5}, | |
| number = {9}, | |
| pages = {eaaw9832}, | |
| year = {2019}, | |
| publisher = {American Association for the Advancement of Science}, | |
| doi = {10.1126/sciadv.aaw9832} | |
| } | |
| @article{bong2020strong, | |
| title = {A Strong No-Go Theorem on the Wigner's Friend Paradox}, | |
| author = {Bong, Kok-Wei and Utreras-Alarc{\'o}n, An{\'i}bal and Ghafari, Farzad and Liang, Yeong-Cherng and Tischler, Nora and Cavalcanti, Eric G. and Pryde, Geoff J. and Wiseman, Howard M.}, | |
| journal = {Nature Physics}, | |
| volume = {16}, | |
| number = {12}, | |
| pages = {1199--1205}, | |
| year = {2020}, | |
| publisher = {Nature Publishing Group}, | |
| doi = {10.1038/s41567-020-0990-x} | |
| } | |
| @misc{mukherjee2025timelike, | |
| title = {Limits of Absoluteness of Observed Events in Timelike Scenarios: A No-Go Theorem}, | |
| author = {Mukherjee, Sumit and Hance, Jonte R.}, | |
| year = {2025}, | |
| eprint = {2510.26562}, | |
| archivePrefix= {arXiv}, | |
| primaryClass = {quant-ph}, | |
| doi = {10.48550/arXiv.2510.26562}, | |
| url = {https://arxiv.org/abs/2510.26562}, | |
| note = {arXiv:2510.26562} | |
| }% ----------------------------------------------------------------------------- | |
| % IBM QUANTUM PLATFORM AND QISKIT SOFTWARE STACK | |
| % ----------------------------------------------------------------------------- | |
| @misc{ibmquantum, | |
| title = {{IBM} {Q}uantum Platform}, | |
| author = {{IBM Quantum}}, | |
| year = {January 2026}, | |
| url = {https://quantum.ibm.com/}, | |
| note = {Official platform (accessed 2026-01-19)} | |
| } | |
| @software{qiskit, | |
| title = {{{Qiskit}}: An Open-Source SDK for Quantum Computing}, | |
| author = {{Qiskit contributors}}, | |
| year = {January 2026}, | |
| doi = {10.5281/zenodo.2573505}, | |
| url = {https://qiskit.org/}, | |
| note = {Version 2.3.0 (accessed 2026-01-19).} | |
| }@software{qiskitaer, | |
| title = {{{{Qiskit} Aer}}: High-Performance Quantum Circuit Simulation}, | |
| author = {{Qiskit contributors}}, | |
| year = {January 2026}, | |
| url = {https://qiskit.org/ecosystem/aer/}, | |
| note = {Simulator backend and noise modeling tools; Version 0.17.2 (accessed 2026-01-19).} | |
| }@software{qiskitibmruntime, | |
| title = {{Qiskit} {IBM} Runtime}, | |
| author = {{IBM Quantum}}, | |
| year = {January 2026}, | |
| url = {https://github.com/Qiskit/qiskit-ibm-runtime}, | |
| note = {Version 0.45.0} | |
| } |