Ontological Status of Molecular Structure - HYLE-
... We accept the strong-realism axiom, according to which there are things, events and processes independent of our own existence and will, and they can be individually known by us, within limits imposed by our senses and brain, as existing and distinct from other objects. We also accept the classical ...
... We accept the strong-realism axiom, according to which there are things, events and processes independent of our own existence and will, and they can be individually known by us, within limits imposed by our senses and brain, as existing and distinct from other objects. We also accept the classical ...
Scientific discoveries limit our knowledge
... Zurek’s focus on “massive redundancy” in the encoding of observer-accessible information about the physical situation and the mutually-distant locations of the observers.8 Bohm’s claim that observer and observed must be totally distinct conveys this sense that all competent third parties, regardless ...
... Zurek’s focus on “massive redundancy” in the encoding of observer-accessible information about the physical situation and the mutually-distant locations of the observers.8 Bohm’s claim that observer and observed must be totally distinct conveys this sense that all competent third parties, regardless ...
Introduction to Quantum Computing (2010) (e-book)
... dimensional sizes of physical devices that are comparable to quantum dimensions, such as the atoms), as well as the achievement of a new level of security of the information. KSV’s book, [KSV02], address to this question in a very solid way. First of all, in a quantum computer, it’s possible to mode ...
... dimensional sizes of physical devices that are comparable to quantum dimensions, such as the atoms), as well as the achievement of a new level of security of the information. KSV’s book, [KSV02], address to this question in a very solid way. First of all, in a quantum computer, it’s possible to mode ...
Multipartite entanglement, quantum- error
... a key ingredient in many areas of quantum information theory including quantum key distribution [4], superdense coding [5] and teleportation [6]. However the general problem of how to quantify [1] the level of entanglement in an arbitrary multipartite system remains unresolved. There has been some p ...
... a key ingredient in many areas of quantum information theory including quantum key distribution [4], superdense coding [5] and teleportation [6]. However the general problem of how to quantify [1] the level of entanglement in an arbitrary multipartite system remains unresolved. There has been some p ...
Precisely Timing Dissipative Quantum Information
... does not need to have any coherent unitary control over the quantum system but instead merely makes use of dissipative dynamics exhibiting quantum and classical features. Still, it is the very point of our schemes that, at the end of the day, the statistics of the measurement outcomes are exactly as ...
... does not need to have any coherent unitary control over the quantum system but instead merely makes use of dissipative dynamics exhibiting quantum and classical features. Still, it is the very point of our schemes that, at the end of the day, the statistics of the measurement outcomes are exactly as ...