Topological quantum memory
... especially nice locality properties. For this reason, we think that surface codes suggest a particularly promising approach to quantum computing architecture. One glittering achievement of the theory of quantum fault tolerance is the threshold theorem, which asserts that an arbitrarily long quantum ...
... especially nice locality properties. For this reason, we think that surface codes suggest a particularly promising approach to quantum computing architecture. One glittering achievement of the theory of quantum fault tolerance is the threshold theorem, which asserts that an arbitrarily long quantum ...
INCT_IQ_ENG_1 - Instituto de Física / UFRJ
... scientific advances of the time, such as the development and application of the theories of Thermodynamics and Electrodynamics. In the latter, one identify incredible progress, again due primarily to the development and application of two scientific theories: Quantum Mechanics and Information Theory ...
... scientific advances of the time, such as the development and application of the theories of Thermodynamics and Electrodynamics. In the latter, one identify incredible progress, again due primarily to the development and application of two scientific theories: Quantum Mechanics and Information Theory ...
Chemical Quantities
... sandwich. If you were asked to make any number of sandwiches, it would be easy to use the original sandwich equation to determine how much of each ingredient you need. The equation for a chemical reaction gives you the same type of information. It indicates the relative numbers of reactant and produ ...
... sandwich. If you were asked to make any number of sandwiches, it would be easy to use the original sandwich equation to determine how much of each ingredient you need. The equation for a chemical reaction gives you the same type of information. It indicates the relative numbers of reactant and produ ...
NOT EVEN WRONG tells a fascinating and complex story about
... being concerned with the issues to be discussed in this book go back to the first years of the 1970s, to hours spent poring over every book about astronomy I could find in the local public library. At some point I came across the subject of astrophysics; in particular that part of the subject that s ...
... being concerned with the issues to be discussed in this book go back to the first years of the 1970s, to hours spent poring over every book about astronomy I could find in the local public library. At some point I came across the subject of astrophysics; in particular that part of the subject that s ...
Violation of Leggett-Garg inequalities in quantum measurements
... simply describes the requirement that the probability Pψ (−1, +1) for the measurement outcomes s2 = −1 and s3 = +1 should be positive. Interestingly, fundamental quantum mechanics seems to suggest that these joint probabilities - if they can be defined at all - may be negative. The violation of LGIs ...
... simply describes the requirement that the probability Pψ (−1, +1) for the measurement outcomes s2 = −1 and s3 = +1 should be positive. Interestingly, fundamental quantum mechanics seems to suggest that these joint probabilities - if they can be defined at all - may be negative. The violation of LGIs ...
quantum mechanical methods for enzyme kinetics
... where γ (T ) is the transmission coefficient, β = 1/kBT, kB is Boltzmann’s constant, h is Planck’s constant, and 1G 6=(T ) is the molar free energy of activation. Note that both 1G 6=(T ) and γ (T ) depend on the choice of the transition state hypersurface, and thus they have a complementary nature. ...
... where γ (T ) is the transmission coefficient, β = 1/kBT, kB is Boltzmann’s constant, h is Planck’s constant, and 1G 6=(T ) is the molar free energy of activation. Note that both 1G 6=(T ) and γ (T ) depend on the choice of the transition state hypersurface, and thus they have a complementary nature. ...
Algebraic Topology Foundations of Supersymmetry and Symmetry
... Often physicists deal with such problems in terms of either spontaneous symmetry breaking or approximate symmetries that require underlying explanations or ad-hoc dynamic restrictions that are semi-empirical. A well-studied example of this kind is that of the dynamic Jahn–Teller effect and the corre ...
... Often physicists deal with such problems in terms of either spontaneous symmetry breaking or approximate symmetries that require underlying explanations or ad-hoc dynamic restrictions that are semi-empirical. A well-studied example of this kind is that of the dynamic Jahn–Teller effect and the corre ...
Full text in PDF form
... equal footing, when a quantum system actually is in a pure state. Hence, a properly posed question reveals obvious uncertainties where at the first glance we have no uncertainty. The related entropic uncertainty relations for finite and infinite quantum systems have received due attention in the lit ...
... equal footing, when a quantum system actually is in a pure state. Hence, a properly posed question reveals obvious uncertainties where at the first glance we have no uncertainty. The related entropic uncertainty relations for finite and infinite quantum systems have received due attention in the lit ...
Theory and applications of light-matter interactions in Gerasimos Angelatos
... â - bosonic field annihilation operator. Like associated modes f , denoted â(r; ω) if modes are continuous and âλ if they are discrete. σ̂ ± - Pauli raising/lowering matrices for quantum dot state. g - quantum optical coupling rate ΩR - Rabi field S 0 (ω) - bare spontaneous emission spectrum S(rD ...
... â - bosonic field annihilation operator. Like associated modes f , denoted â(r; ω) if modes are continuous and âλ if they are discrete. σ̂ ± - Pauli raising/lowering matrices for quantum dot state. g - quantum optical coupling rate ΩR - Rabi field S 0 (ω) - bare spontaneous emission spectrum S(rD ...
Quantum Correlations in Information Theory
... quantum entanglement, i.e. peculiar correlations described by quantum laws which are shared, for example, between the sender and the receiver of a message. However, it has been recently shown that entanglement is not the most general form of quantum correlations. Even unentangled states of compound ...
... quantum entanglement, i.e. peculiar correlations described by quantum laws which are shared, for example, between the sender and the receiver of a message. However, it has been recently shown that entanglement is not the most general form of quantum correlations. Even unentangled states of compound ...