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| -rwxr-xr-x | methodology.bib | 10 | ||||
| -rwxr-xr-x | philosophy.bib | 34 | ||||
| -rwxr-xr-x | physics.bib | 168 |
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diff --git a/methodology.bib b/methodology.bib index aec468b..988655d 100755 --- a/methodology.bib +++ b/methodology.bib @@ -15,6 +15,16 @@ volume = {}, } +@book{young2019, + title = {Ultralearning: Master Hard Skills, Outsmart the Competition, and Accelerate Your Career}, + author = {Scott H. Young}, + publisher = {HarperBusiness}, + isbn = {0062852744,9780062852748}, + year = {2019}, + series = {}, + volume = {}, +} + % author = {Eco, Umberto; Erspamer, Francesco; Farina, Geoff; Mongiat Farina, Caterina}, @book{eco2015, title = {How to write a thesis}, diff --git a/philosophy.bib b/philosophy.bib index 6a2d9c1..470b970 100755 --- a/philosophy.bib +++ b/philosophy.bib @@ -1499,3 +1499,37 @@ year = {1910}, publisher = {Clarendon Press}, } + +@book{adriaans2008, + title = {Philosophy of Information}, + author = {Pieter Adriaans, Johan F.A.K. van Benthem}, + publisher = {North Holland}, + isbn = {9780444517265}, + year = {2008}, + series = {Handbook of the Philosophy of Science}, + edition = {1}, + volume = {}, +} + +@inbook{kelly2008, + title = {Ockham's Razor, Truth and Information}, + author = {Kevin T. Kelly}, + booktitle = {Philosophy of Information}, + publisher = {North Holland}, + isbn = {9780444517265}, + year = {2008}, + series = {Handbook of the Philosophy of Science}, + edition = {1}, + volume = {}, +} + +@book{floridi2016, + title = {The Routledge Handbook of Philosophy of Information}, + author = {Luciano Floridi}, + publisher = {Routledge}, + isbn = {113879693X,9781138796935}, + year = {2016}, + series = {Routledge Handbooks in Philosophy}, + edition = {}, + volume = {}, +} diff --git a/physics.bib b/physics.bib index 5d2150d..c94911a 100755 --- a/physics.bib +++ b/physics.bib @@ -348,3 +348,171 @@ edition = {}, volume = {}, } + +@book{sklar1993, + title = {Physics and Chance: Philosophical Issues in the Foundations of Statistical Mechanics}, + author = {Lawrence Sklar}, + publisher = {Cambridge University Press}, + isbn = {0521440556,9780521440554}, + year = {1993}, + series = {}, + edition = {}, + volume = {}, +} + +@book{coopersmith2017, + title = {The Lazy Universe: An Introduction to the Principle of Least Action}, + author = {Jennifer Coopersmith}, + publisher = {Oxford University Press}, + isbn = {0198743041,9780198743040,9780191802966,0191802964 }, + year = {2017}, + series = {}, + edition = {1}, + volume = {}, +} + +@misc{thurston1994, + title = {On proof and progress in mathematic}, + author = {William P. Thurston}, + year = {1994}, + url = {https://arxiv.org/abs/math/9404236}, + eprint = {9404236}, + archivePrefix = {arXiv}, + primaryClass = {math}, +} + +@misc{shalizi2004, + title = {The Backwards Arrow of Time of the Coherently Bayesian Statistical Mechanic}, + author = {Cosma Rohilla Shalizi}, + year = {2004}, + url = {https://arxiv.org/abs/cond-mat/0410063}, + eprint = {0410063}, + archivePrefix = {arXiv}, + primaryClass = {cond-mat}, +} + +@article{goold2016, + title = {The role of quantum information in thermodynamics{\textemdash}a topical review}, + author = {John Goold and Marcus Huber and Arnau Riera and Lídia del Rio and Paul Skrzypczyk}, + doi = {10.1088/1751-8113/49/14/143001}, + url = {https://doi.org/10.1088/1751-8113/49/14/143001}, + year = {2016}, + month = {feb}, + publisher = {{IOP} Publishing}, + volume = {49}, + number = {14}, + pages = {143001}, + abstract = {This topical review article gives an overview of the interplay between quantum information theory and thermodynamics of quantum systems. We focus on several trending topics including the foundations of statistical mechanics, resource theories, entanglement in thermodynamic settings, fluctuation theorems and thermal machines. This is not a comprehensive review of the diverse field of quantum thermodynamics; rather, it is a convenient entry point for the thermo-curious information theorist. Furthermore this review should facilitate the unification and understanding of different interdisciplinary approaches emerging in research groups around the world.}, +} + +@article{toffoli2016, + title = {Entropy? Honest!}, + author = {Toffoli, Tommaso}, + journal = {Entropy}, + volume = {18}, + year = {2016}, + number = {7}, + article-number = {247}, + url = {https://www.mdpi.com/1099-4300/18/7/247}, + issn = {1099-4300}, + abstract = {Here we deconstruct, and then in a reasoned way reconstruct, the concept of “entropy of a system”, paying particular attention to where the randomness may be coming from. We start with the core concept of entropy as a count associated with a description; this count (traditionally expressed in logarithmic form for a number of good reasons) is in essence the number of possibilities—specific instances or “scenarios”—that match that description. Very natural (and virtually inescapable) generalizations of the idea of description are the probability distribution and its quantum mechanical counterpart, the density operator. We track the process of dynamically updating entropy as a system evolves. Three factors may cause entropy to change: (1) the system’s internal dynamics; (2) unsolicited external influences on it; and (3) the approximations one has to make when one tries to predict the system’s future state. The latter task is usually hampered by hard-to-quantify aspects of the original description, limited data storage and processing resource, and possibly algorithmic inadequacy. Factors 2 and 3 introduce randomness—often huge amounts of it—into one’s predictions and accordingly degrade them. When forecasting, as long as the entropy bookkeping is conducted in an honest fashion, this degradation will always lead to an entropy increase. To clarify the above point we introduce the notion of honest entropy, which coalesces much of what is of course already done, often tacitly, in responsible entropy-bookkeping practice. This notion—we believe—will help to fill an expressivity gap in scientific discourse. With its help, we shall prove that any dynamical system—not just our physical universe—strictly obeys Clausius’s original formulation of the second law of thermodynamics if and only if it is invertible. Thus this law is a tautological property of invertible systems!}, + doi = {10.3390/e18070247} +} + +% http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.40.8986 +@misc{jaynes98, + title = {The Second Law as Physical Fact and as Human Inference}, + author = {E. T. Jaynes}, + year = {1998} + url = {https://bayes.wustl.edu/etj/articles/second.law.pdf}, +} + +% http://doi.org/10.1119/1.1971557 +@article{jaynes1965, + title = {Gibbs vs Boltzmann Entropies}, + author = {Jaynes, E. T.}, + doi = {10.1119/1.1971557}, + publisher = {American Institute of Physics}, + journal = {American Journal of Physics}, + issn = {0002-9505,1943-2909}, + year = {1965}, + volume = {33}, + issue = {5}, + pages = {391}, + url = {https://bayes.wustl.edu/etj/articles/gibbs.vs.boltzmann.pdf}, +} + +% https://arxiv.org/abs/quant-ph/0609190 +@article{gellman2007, + title = {Quasiclassical coarse graining and thermodynamic entropy}, + volume = {76}, + issn = {1094-1622}, + url = {http://dx.doi.org/10.1103/PhysRevA.76.022104}, + doi = {10.1103/physreva.76.022104}, + number = {2}, + journal = {Physical Review A}, + publisher = {American Physical Society (APS)}, + author = {Gell-Mann, Murray and Hartle, James B.}, + year = {2007}, + month = {Aug} +} + +% https://arxiv.org/abs/quant-ph/9908043 +@article{lloyd2000, + title = {Ultimate physical limits to computation}, + author = {Lloyd, Seth}, + volume = {406}, + issn = {1476-4687}, + url = {http://dx.doi.org/10.1038/35023282}, + doi = {10.1038/35023282}, + number = {6799}, + journal = {Nature}, + publisher = {Springer Science and Business Media LLC}, + year = {2000}, + month = {Aug}, + pages = {1047–1054} +} + +@misc{bais2007, + title = {The Physics of Information}, + author = {F. Alexander Bais and J. Doyne Farmer}, + year = {2007}, + eprint = {0708.2837}, + archivePrefix = {arXiv}, + primaryClass = {physics.class-ph} + url = {https://arxiv.org/abs/0708.2837}, +} + +@misc{galantai2015, + title = {Is the Universe roughly-tuned for computing?}, + author = {Zoltan Galantai}, + year = {2015}, + eprint = {1501.01754}, + archivePrefix = {arXiv}, + primaryClass = {physics.gen-ph} + url = {https://arxiv.org/abs/1501.01754}, +} + +% https://arxiv.org/abs/0903.0340 +@article{baez2010, + title = {Physics, Topology, Logic and Computation: A Rosetta Stone}, + issn = {1616-6361}, + url = {http://dx.doi.org/10.1007/978-3-642-12821-9_2}, + doi = {10.1007/978-3-642-12821-9_2}, + journal = {Lecture Notes in Physics}, + publisher = {Springer Berlin Heidelberg}, + author = {Baez, J. and Stay, M.}, + year = {2010}, + pages = {95–172} +} + +@book{kuhn1978, + title = {Black-body theory and the quantum discontinuity, 1894-1912}, + author = {Thomas S Kuhn}, + publisher = {Oxford }, + isbn = {0195023838,9780195023831}, + year = {1978}, + series = {}, + edition = {}, + volume = {}, +} |