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| Time | Room | Professor | |
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| Wed 15.30-17.00 | D0.02 | → Stefan Wolf | |
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| Papers | Date and speakers | |
|---|---|---|
| [1] | The human condition, H. Arendt (1998) PDF | : Diell Kryeziu |
| [2] | The genesis and development of a scientific fact, L. Fleck (1979) PDF | |
| [3] | Nepotism and sexism in peer-review, C. Wenneras, A. Wold (1997) PDF The academic manifesto: From an occupied to a public university, W. Halffman, H. Radder (2015) PDF | : Sophie Kergassner |
| [4] | Rationalism, relativism, and the scientific method, P. Feyerabend (1981) PDF How to defend society against science, P. Feyerabend (1975) PDF Erkenntnis für freie Menschen, P. Feyerabend (1980) | : Kang Zhang |
| [5] | The quest for certainty, J. Dewey (1929) | |
| [6] | Sinnliche Elemente und naturwissenschaftliche Begriffe, E. Mach (1910) | |
| [7] | Penser dans un monde mauvais, G. de Lagasnerie (2017) | |
| [8] | How the Hippies Saved Physics: Science, Counterculture, and the Quantum Revival, D. Kaiser (2011) | : Sebastian Dietlmeier |
| Papers | Date and speakers | |
|---|---|---|
| [9] | The work value of information, O. Dahlsten, R. Renner, E. Rieper, V. Vedral (2009) PDF Demonic heat engines, B. W. Schumacher (1994) PDF | |
| [10] | Work recoverable from two-particle information, L. B. Levitin, T. Toffoli (2012) PDF | |
| [11] | Simulating physics with computers, R. Feynman (1982) PDF | : Edoardo Riggio and Mattia Giannaccari |
| [12] | The physical nature of information, R. Landauer (1996) PDF Irreversibility and heat generation in the Computing Process, R. Landauer (1961) PDF | : Susanna Ardigò and Mark Sobolev |
| [13] | Information, physics, quantum: The search for links, J. A. Wheeler (1990) PDF | |
| [14] | Quantum gloves: Physics and information, N. Gisin (2004) PDF | |
| [15] | Thermodynamics of computation, C. Bennett (1980) PDF | |
| [16] | Reversible computing, T. Toffoli (1980) PDF Conservative logic, E. Fredkin, T. Toffoli (1982) PDF | |
| [17] | NP-complete problems and physical reality, S. Aaronson (2005) PDF | |
| [18] | Three approaches to the quantitative definition of information, A. N. Kolmogorov (1965) PDF | : Alessandro Manenti |
| [19] | Could the physical world be emergent instead of fundamental, and why should we ask?, M. Mueller (2017) PDF | : Vincent Hermann |
| [20] | Active P-Colonies, M. Scarpone, G. Molteni, A. Leporati, C. Zandron (2021) PDF | : Valentina Moretti |
| [21] | The Brain: The Story of You, David Eagleman (2015) | |
| [22] | Quantum machine learning: a classical perspective, C. Ciliberto, M. Herbster, A. D. Ialongo, M. Pontil, A. Rocchetto, S. Severini and L. Wossnig (2018) PDF | : Nawfal Malick |
| [23] | Hacking the Simulation: From the Red Pill to the Red Team, R. V. Yampolskiy (2022) PDF | : Aleksandr Volkov |
| Papers | Date and speakers | |
|---|---|---|
| [24] | The end of time, J. B. Barbour (1999) The emergence of time and its arrow from timelessness, J. B. Barbour (1994) PDF | : Aaron Collavini |
| [25] | The direction of time, H.Reichenbach (1971) | |
| [26] | Complexity in the universe, C. H. Bennett (1994) PDF | : Md Abu Hasnat |
| [27] | "Time" replaced by quantum correlations, W. K. Wootters (1984) PDF | |
| [28] | Autonomous quantum clocks: does thermodynamics limit our ability to measure time?, P. Erker, M. T. Mitchison, R. Silva, M. P. Woods, N. Brunner, M. Huber (2017) PDF | |
| [29] | Is time asymmetry logically prior to quantum mechanics?, W. K. Wootters (1994) PDF | |
| [30] | Evolution und Entropiewachstum, C. F. von Weizsäcker (1972) PDF | |
| [31] | Dokumente, C. F. von Weizsäcker (1986) | |
| [32] | The ghost in the quantum Turing machine, S. Aaronson (2013) PDF | |
| [33] | On the notion of cause, with application to the free-will problem, B. Russell (1935) PDF | |
| [34] | Kausalität in der Physik, G. Hermann (1935) PDF | |
| [35] | Quantum correlations with no causal order, O. Oreshkov, F. Costa, C. Brukner (2012) PDF | |
| [36] | Causality - complexity - consistency: Can space-time be based on logic and computation?, Ä. Baumeler, S. Wolf (2016) PDF | |
| [37] | Enhanced Communication With the Assistance of Indefinite Causal Order, D. Ebler, S. Salek, G. Chiribella (2017) PDF |
| Papers | Date and speakers | |
|---|---|---|
| [38] | Can quantum mechanical description of physical reality be considered complete?, A. Einstein, B. Podolsky, N. Rosen (1935) PDF | |
| [39] | On the Einstein-Podolsky-Rosen paradox, J. S. Bell (1964) PDF | : Daniel Gonzalez |
| [40] | The two Bell's theorems of John Bell, H. M. Wiseman (2014) PDF Hidden variables and the two theorems of John Bell, N. D. Mermin (1993) PDF | |
| [41] | Nonlocality for two particles without inequalities for almost all entangled states, L. Hardy (1993) PDF A unified view on Hardy's paradox and the CHSH inequality, L. Mancinska, S. Wehner (2014) PDF | |
| [42] | Bertlmann's socks and the nature of reality, J. S. Bell (1981) PDF | : Margherita Moro |
| [43] | Loopholes in Bell inequality tests of local realism, J.-A. Larsson (2014) PDF | |
| [44] | Die Logik nicht gleichzeitig entscheidbarer Aussagen, E. Specker (1960) PDF Specker's parable of the over-protective seer: A road to contextuality, nonlocality and complementarity, Y.-C. Liang, R. W. Spekkens, H. M. Wiseman (2011) PDF | |
| [45] | The problem of hidden variables in quantum mechanics, S. Kochen, E. P. Specker (1967) Bell-Kochen-Specker theorem: A proof with 18 vectors, A. Cabello, J. M. Estebaranz, G. G. Alcaine (1996) PDF | |
| [46] | What does an experimental test of quantum contextually prove or disprove?, A. Winter (2014) PDF | |
| [47] | Cost of exactly simulating quantum entanglement with classical communication, B. Brassard, R. Cleve, A. Tapp (1999) PDF Communication cost of simulating Bell correlations, D. Bacon, B. Toner (2003) PDF | |
| [48] | Quantum pseudo-telepathy and the Kochen-Specker theorem, R. Renner, S. Wolf (2004) PDF | |
| [49] | No quantum advantage for nonlocal computation, N. Linden, S. Popescu, A. J. Short, A. Winter (2006) PDF | |
| [50] | Information causality as a physical principle, M. Pawlowski, T. Paterek, D. Kaszlikowski, V. Scarani, A. Winter, M. Zukowski (2009) PDF A limit on nonlocality in any world in which communication complexity is not trivial, G. Brassard, H. Buhrman, N. Linden, A. Methot, A. Tapp, F. Unger (2005) PDF | |
| [51] | A glance beyond the quantum model, M. Navascues, H. Wunderlich (2009) PDF PR-Box correlations have no classical limit, D. Rohrlich (2014) PDF Quantum measurement of spins and magnets, and the classical limit of PR-boxes, N. Gisin (2014) PDF | : Leon Ackermann and Alberto Finardi |
| [52] | The prospects of quantum computing in computational molecular biology, C. Outeiral, M. Strahm, J. Shi, G. M. Morris, S. C. Benjamin, C. M. Deane (2020) PDF | |
| [53] | An introduction to quantum game theory, A. Flitney, D. Abbott (2002) PDF Quantum Games and Quantum Strategies, J. Eisert, M. Wilkens, M. Lewenstein (1998) PDF | : Lorenzo Galli |
| Papers | Date and speakers | |
|---|---|---|
| [54] | Quantum cryptography: Public key distribution and coin tossing, C. H. Bennett, G. Brassard (1984) PDF Quantum cryptography based on Bell's theorem, A. Ekert (1991) PDF | |
| [55] | No signaling and quantum key distribution, J. Barrett, L. Hardy, A. Kent (2005) PDF | |
| [56] | The black paper of quantum cryptography: Real implementation problems, V. Scarani, C. Kurtsiefer (2009) PDF | : Hussein Fawaz |
| [57] | Unconditionally secure bit commitment, A. Kent (1998) PDF | : Ata Yurtsever |
| [58] | Unconditionally secure quantum bit commitment is impossible, D. Mayers (1996) PDF Is Quantum Bit Commitment Really Possible?, H.-K. Lo, H. F. Chau (1996) PDF | |
| [59] | Free randomness can be amplified, R. Colbeck, R. Renner (2012) PDF | |
| [60] | Random numbers certified by Bell's theorem, S. Pironio, A. Acin, S. Massar, A. Boyer de la Giroday, D. N. Matsukevich, P. Maunz, S. Olmschenk, D. Hayes, L. Luo, T. A. Manning, C. Monroe (2009) PDF | : Jana Muñoz |
| [61] | Key Agreement and Oblivious Transfer from Free-Energy Limitations, X. Coiteux-Roy, S. Wolf (2022) PDF |
| Papers | Date and speakers | |
|---|---|---|
| [62] | “Relative state” formulation of quantum mechanics, H. Everett (1957) PDF | |
| [63] | The emergent multiverse, D. Wallace (2012) | |
| [64] | Can free will emerge from determinism in quantum theory?, G. Brassard, P. Raymond-Robichaud (2012) PDF | : Emanuele Bellini |
| [65] | A suggested interpretation of the quantum theory in terms of "hidden" variables, D. Bohm (1952) PDF | |
| [66] | A tripartite quantum state violating the hidden influence constraints, T. J. Barnea, J.-D. Bancal, Y.-C. Liang, N. Gisin (2013) PDF Non-locality is transitive, S. Coretti, E. Hänggi, S. Wolf (2011) PDF | |
| [67] | Copenhagen computation: How I learned to stop worrying and love Bohr, N. D. Mermin (2003) PDF | |
| [68] | On nonlocality as a resource theory and nonlocality measures, J. de Vicente (2014) PDF | |
| [69] | La nouvelle cuisine, J. S. Bell (1990) PDF | |
| [70] | Six possible worlds of quantum mechanics, J. S. Bell (1986) PDF | : Piergiuseppe Sancetta |
| [71] | Against 'measurement', J. S. Bell (1989) PDF | |
| [72] | Einstein, incompleteness, and the epistemic view of quantum states, N. Harrigan, R. W. Spekkens (2007) PDF | |
| [73] | On the reality of the quantum state, M. F. Pusey, J. Barrett, T. Rudolph (2012) PDF Is a system's wave function in one-to-one correspondence with its elements of reality?, R. Colbeck, R. Renner (2012) PDF | |
| [74] | In defense of the epistemic view of quantum states: A toy theory, R. Spekkens (2004) PDF | |
| [75] | Physics Without Physics: The Power of Information-theoretical Principles, G. M. D'Ariano (2017) PDF | |
| [76] | Three measurement problems, T. Maudlin (1995) PDF | : George Wade |
| [77] | Algorithmic Pseudorandomness in Quantum Setups, A. Bendersky, G. de la Torre, G. Senno, S. Figueira, A. Acín (2016) PDF | |
| [78] | One world versus many: The inadequacy of Everettian accounts of evolution, probability, and scientific confirmation, A. Kent (2009) PDF | |
| [79] | The interpretation of quantum mechanics: Many worlds or many words?, M. Tegmark (1997) PDF | : Domenico Santarsiero |
| [80] | The fabric of reality, D. Deutsch (1997) | |
| [81] | The cellular automaton interpretation of quantum mechanics, G. 't Hooft (2014) PDF | |
| [82] | The Foundations of Quantum Mechanics in the Philosophy of Nature, G. Hermann (1935) PDF Die Naturphilosophischen Grundlagen der Quantenmechanik, G. Hermann (1935) PDF | : Alessandro Spizzico |
| [83] | Indeterminism in quantum physics and classical physics, K. Popper (1950) PDF | |
| [84] | Is quantum theory universally valid?, A. Peres, W.H.Zurek (1983) PDF | : Alind Xhyra |
| [85] | The impossibility of accurate self-measurements, T. Breuer (1995) PDF | |
| [86] | Minipaper: Probability in wave mechanics, H. Everett (1995) PDF | |
| [87] | Quantum mechanics and reality, B. DeWitt (1970) PDF | : Kun Zhan |
| [88] | QBism, the perimeter of quantum Bayesianism, C. Fuchs (2010) PDF | |
| [89] | Towards a proper quantum theory, J. Levy-Leblond (1976) PDF | |
| [90] | Consciousness and the Collapse of the Wave Function, D. Chalmers, K. McQueen (2021) PDF | : Yogeesh Reddy Yerrababu |