![]() ![]() Ever since 2016, he constructed a decorated, submerged Christmas tree at the center of spawn to leave behind gifts to random people. The oldest ones would be the Coordinate Quests, in which people need to solve clues to progress through stages. Even if the projects are SpawnMason-centered, the wider community is often welcome to participate. Negative_Entropy is otherwise known for his involvement in spawn projects. He built around 25 weekly lodges, was the main builder at Smibville and Chunk Haven, and placed obsidian for the first masonic logo and the Masonic Eclipse. He has been a part of many notable bases since he joined the SpawnMasons, including Boedecken, Valinor, Mu and Smibville. He was voted to worshipful in November of 2017 and currently helps to run the group. He mainly made lodges, built at some of the group's bases, and got to know other members. Negative_Entropy was initiated as a member in April of 2017. Following the Tavux bases, basemate NickHasCancer invited him to the SpawnMasons. They continued basing together, eventually arriving at a Tavux base called Callisto, and later Arcadia. One day at spawn he found another player named Flip, who was making the first water cube at spawn, and decided to help him out. He preferred to hang around at spawn because he liked to show his builds to random visitors. Kits that got spread were the diamond Entropy kits, the Chemistry Sets for brewing and iron armor Make Spawn Green Again kits, which he would give out to new players at spawn. He first duped using the newly added shulker boxes, with the 11/11 Dupe, and the following donkey dupe. He built there alone for a good while before returning to spawn, where he built structures and farms, and met many players. He escaped spawn using the Southern Canal and built a first base at coordinates 10000*(pi,e). Cerf, Caltech preprint KRL-MAP-204 (1996).Negative_Entropy joined the server in June 2016, after learning about 2b2t from TheCampingRusher's first video. Adami, “Quantum mechanics of measurement,” e-print quant-ph/9605002.Ĭ. Adami, “Entropic Bell inequalities,” e-print quant-ph/9608047. Adami, “Negative entropy and information in quantum mechanics,” e-print quant-ph/9512022 “Quantum information theory of entanglement,” e-print quant-ph/9605039.Ī. ![]() Zurek, ed., Complexity, Entropy and the Physics of Information, Santa Fe Institute Studies in the Sciences of Complexity Vol. Weaver, The Mathematical Theory of Communication (University of Illinois Press, Urbana, 1949). von Neumann, Mathematische Grundlagen der Quantenmechanik(Springer, Berlin, 1932).Ĭ. Such a unified information-theoretic description of classical correlation and quantum entanglement clarifies the link between them: the latter can be viewed as “super-correlation” which can induce classical correlation when considering a ternary or larger system. A straightforward definition of mutual quantum entropy, or “mutual entanglement,” can also be constructed using a “mutual” density matrix. Negative quantum entropy can be traced back to “conditional” density matrices which admit eigenvalues larger than unity. We find that, unlike in Shannon theory, conditional entropies can be negative when considering quantum entangled systems such as an Einstein-Podolsky-Rosen pair, which leads to a violation of well-known bounds of classical information theory. It parallels classical (Shannon) information theory but is based entirely on density matrices, rather than probability distributions, for the description of quantum ensembles. ![]() We present a quantum information theory that allows for the consistent description of quantum entanglement. ![]()
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