Quantum information or quantum coding? - Philsci
... stage of coding he introduces the quantum signal source, which “is a device that codes each message aM from the source A into a "signal state" aM of a quantum system M.” (Schumacher 1995, p. 2738). This means that the quantum states involved in the process described by Schumacher do not come from a ...
... stage of coding he introduces the quantum signal source, which “is a device that codes each message aM from the source A into a "signal state" aM of a quantum system M.” (Schumacher 1995, p. 2738). This means that the quantum states involved in the process described by Schumacher do not come from a ...
For ULSI workshop. OUR SLIDES not ready. In PPT format.
... of reversibility as their mechanism of action is through Schrödinger’s evolution (which is reversible by virtue of being unitary). • Thus, methods developed for permutative (reversible) circuits [12,15] are helpful for quantum circuits as well. • Permutative circuits have only pure states and their ...
... of reversibility as their mechanism of action is through Schrödinger’s evolution (which is reversible by virtue of being unitary). • Thus, methods developed for permutative (reversible) circuits [12,15] are helpful for quantum circuits as well. • Permutative circuits have only pure states and their ...
Supmech: the Geometro-statistical Formalism Underlying Quantum
... ω(..., KX, ...) = Kω(..., X, ...) where K is in the center of the algebra; for notation, see section III] is also incorporated. Moreover, to accommodate fermionic objects on an equal footing with the bosonic ones, the scheme developed here is based on superalgebras. The scheme of mechanics develope ...
... ω(..., KX, ...) = Kω(..., X, ...) where K is in the center of the algebra; for notation, see section III] is also incorporated. Moreover, to accommodate fermionic objects on an equal footing with the bosonic ones, the scheme developed here is based on superalgebras. The scheme of mechanics develope ...
2015_0042_Quantum Robot = CSP = Quantum Emotional
... Constraint satisfaction model in robotics Used in main areas of robotics: ...
... Constraint satisfaction model in robotics Used in main areas of robotics: ...
Experimental nonlocal and surreal Bohmian trajectories
... its own Bohmian degrees of freedom. Although a single particle’s trajectory cannot be directly observed, a set of trajectories of an ensemble of particles can be mapped out. This can be done by making a so-called weak measurement of the momentum of a particle at a given instant in time. The weakness ...
... its own Bohmian degrees of freedom. Although a single particle’s trajectory cannot be directly observed, a set of trajectories of an ensemble of particles can be mapped out. This can be done by making a so-called weak measurement of the momentum of a particle at a given instant in time. The weakness ...
Copenhagen interpretation From Wikipedia, the free encyclopedia
... entities that fit neither the classical ideas of particles nor the classical ideas of waves, elementary particles that behaved in ways highly regular when many similar interactions were analyzed yet highly unpredictable when one tried to predict things like individual trajectories through a simple p ...
... entities that fit neither the classical ideas of particles nor the classical ideas of waves, elementary particles that behaved in ways highly regular when many similar interactions were analyzed yet highly unpredictable when one tried to predict things like individual trajectories through a simple p ...
On the adequacy of the Redfield equation and related approaches
... small in comparison with the electronic coupling—a typical situation in photosynthetic EET. In the FMO protein, for example, the electronic coupling strengths span a wide range, 1 – 100 cm−1, while the suggested reorganization energies span a similar range.8,40,41 Modified Redfield theory, first sug ...
... small in comparison with the electronic coupling—a typical situation in photosynthetic EET. In the FMO protein, for example, the electronic coupling strengths span a wide range, 1 – 100 cm−1, while the suggested reorganization energies span a similar range.8,40,41 Modified Redfield theory, first sug ...
Quantum computation and Shor`s factoring algorithm
... restriction at all on computing power. This is an important observation since the model of quantum computation introduced below is automatically reversible. Bennett’s result also shows that the performance of any computation does not require any necessary intrinsic energy dissipation. Remark. The co ...
... restriction at all on computing power. This is an important observation since the model of quantum computation introduced below is automatically reversible. Bennett’s result also shows that the performance of any computation does not require any necessary intrinsic energy dissipation. Remark. The co ...
Quantum process tomography of two-qubit controlled-Z
... mined from a fit to the data, consistent with the designed capacitance Cc. The avoided crossing for the two-photon line at ⌬i ⯝ 0.066 gives a splitting of 9.7⫾ 0.2 MHz, about 冑2 / 2 times as large as the main resonance, as expected from a 兩11典 and 兩02典 interaction. The slope of the resonance between ...
... mined from a fit to the data, consistent with the designed capacitance Cc. The avoided crossing for the two-photon line at ⌬i ⯝ 0.066 gives a splitting of 9.7⫾ 0.2 MHz, about 冑2 / 2 times as large as the main resonance, as expected from a 兩11典 and 兩02典 interaction. The slope of the resonance between ...
Biosystems as Macroscopic Quantum Systems
... systems made possible by the notion of many-sheeted space-time is predicted. The key idea is that the non-atomic space-time sheets can have extremely low temperatures -- unlike the atomic space-time sheet -- and thus allow various Macroscopic quantum phases. Consciousness is assumed to involve also ...
... systems made possible by the notion of many-sheeted space-time is predicted. The key idea is that the non-atomic space-time sheets can have extremely low temperatures -- unlike the atomic space-time sheet -- and thus allow various Macroscopic quantum phases. Consciousness is assumed to involve also ...
Secure Multi-party Quantum Computation
... the identity of R until after the first phase has finished (otherwise, D could simply send the secret state to R in the first phase without violating the definition). ...
... the identity of R until after the first phase has finished (otherwise, D could simply send the secret state to R in the first phase without violating the definition). ...
Interpreting Heisenberg Interpreting Quantum States - Philsci
... from different interpreters. At least in part, this is due to the fact that his texts on the interpretation of quantum mechanics are directed not only at physicists (or philosophers having a background in physics), but also at a wider audience of interested laymen. His remarks are intended not only ...
... from different interpreters. At least in part, this is due to the fact that his texts on the interpretation of quantum mechanics are directed not only at physicists (or philosophers having a background in physics), but also at a wider audience of interested laymen. His remarks are intended not only ...
Long distance coupling of a quantum mechanical oscillator to the
... where the field mode Hamiltonian reads Hfield = ℏ ∫ dω ω (cω† cω + d †ωd ω). Further, we set the energy of ground state ∣ g 〉 to zero and the splitting of the two ground states is given by ωat , see inset of figure 1(a). The interaction between the mirror and the light-field Hm − f is modeled by the fa ...
... where the field mode Hamiltonian reads Hfield = ℏ ∫ dω ω (cω† cω + d †ωd ω). Further, we set the energy of ground state ∣ g 〉 to zero and the splitting of the two ground states is given by ωat , see inset of figure 1(a). The interaction between the mirror and the light-field Hm − f is modeled by the fa ...