Negative Quasi-Probability, Contextuality, Quantum Magic and the
... This DWF is well-defined only for odd-prime dimensional quantum systems: qudits (for d 6= 2) or qupits ( for p 6= 2) . . . maybe “quopits”? as only even prime, 2 is the oddest prime of them all! ...
... This DWF is well-defined only for odd-prime dimensional quantum systems: qudits (for d 6= 2) or qupits ( for p 6= 2) . . . maybe “quopits”? as only even prime, 2 is the oddest prime of them all! ...
Elementary Particle Physics
... mass differences owing to difference of s and u,d, masses. To include charm, use SU(4) symmetry – useful to enumerate states but a poor symmetry owing to the heavy charm mass. FK7003 ...
... mass differences owing to difference of s and u,d, masses. To include charm, use SU(4) symmetry – useful to enumerate states but a poor symmetry owing to the heavy charm mass. FK7003 ...
The Power of Quantum Advice
... Potentially a huge amount! We give a new tool—called “isolatability”—for ruling out the possibility of such extravagant encodings. ...
... Potentially a huge amount! We give a new tool—called “isolatability”—for ruling out the possibility of such extravagant encodings. ...
Particle Acceleration at Astrophysical
... Wave modes are also observed associated with these diffuse ions. Alfvén waves propagate away from the shock roughly parallel to the field at the Alfvén speed —30 km s~relative to the solar wind. However, they are convected into the shock at the much faster solar wind velocity —400km s~[27]. Thus, th ...
... Wave modes are also observed associated with these diffuse ions. Alfvén waves propagate away from the shock roughly parallel to the field at the Alfvén speed —30 km s~relative to the solar wind. However, they are convected into the shock at the much faster solar wind velocity —400km s~[27]. Thus, th ...
Entangling Dipole-Dipole Interactions and Quantum Logic in Optical
... natural choices: the atomic and molecular bases. In the atomic case we consider product states of internal dynamics and center of mass motion. In the molecular case we consider eigenstates of the dipole-coupled two atom Hamiltonian H = HA 1 + HA 2 + Vdd in the Born-Oppenheimer approximation. Both ba ...
... natural choices: the atomic and molecular bases. In the atomic case we consider product states of internal dynamics and center of mass motion. In the molecular case we consider eigenstates of the dipole-coupled two atom Hamiltonian H = HA 1 + HA 2 + Vdd in the Born-Oppenheimer approximation. Both ba ...
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... The advantage of the symplectic/Hamiltonian viewpoint is that we make use of the arsenal of tools for Hamiltonian systems; see e.g., Abraham and Marsden [1] and Marsden and Ratiu [21]. Most notably, symmetry and conservation laws in Hamiltonian systems are linked via Noether’s theorem: Practically s ...
... The advantage of the symplectic/Hamiltonian viewpoint is that we make use of the arsenal of tools for Hamiltonian systems; see e.g., Abraham and Marsden [1] and Marsden and Ratiu [21]. Most notably, symmetry and conservation laws in Hamiltonian systems are linked via Noether’s theorem: Practically s ...
Coherent manipulations of charge-number states in a Cooper-pair box Y. Nakamura,
... and not good enough for deducing a reliable decay envelope. The nonideal shape of the decay envelope could be partly due to the irregular shape of the applied pulse. Furthermore, the lifetime of the oscillations was not so reproducible from run to run even for the same sample, perhaps because of ins ...
... and not good enough for deducing a reliable decay envelope. The nonideal shape of the decay envelope could be partly due to the irregular shape of the applied pulse. Furthermore, the lifetime of the oscillations was not so reproducible from run to run even for the same sample, perhaps because of ins ...
Realization of quantum error correction
... of quantum error correction, experimental work has been limited to protocol process verifications by means of liquid-state nuclear magnetic resonance. These experiments4–6 showed an increase in state fidelity after performing the unitary operations of an errorcorrection protocol, but using technique ...
... of quantum error correction, experimental work has been limited to protocol process verifications by means of liquid-state nuclear magnetic resonance. These experiments4–6 showed an increase in state fidelity after performing the unitary operations of an errorcorrection protocol, but using technique ...
UNIVERSITY OF CALICUT (Abstract)
... conducted at the end of second semester. In Third semester two core theory papers (4 x 2 = 8 credits) and one elective theory (4 credits) and three core practicals (3x2 = 6 credits). In the fourth semester one core paper (4 credits) and two elective papers (4x2 = 8 credits). A research project havin ...
... conducted at the end of second semester. In Third semester two core theory papers (4 x 2 = 8 credits) and one elective theory (4 credits) and three core practicals (3x2 = 6 credits). In the fourth semester one core paper (4 credits) and two elective papers (4x2 = 8 credits). A research project havin ...
Topological Quantum: Lecture Notes
... complicated knots. We will return to this issue later in section 2.4. ...
... complicated knots. We will return to this issue later in section 2.4. ...
Spontaneous Formation of Magnetic Moments and Dephasing in Two-Dimensional Disordered Systems
... This thesis deals with three projects that I carried out in the field of mesoscopic physics. The first deals with quantum point contact (QPC) which is a narrowing of the transport channel in a two-dimensional electron gas(2DEG) heterostructure and is a basic nano-electronic device. When the transpor ...
... This thesis deals with three projects that I carried out in the field of mesoscopic physics. The first deals with quantum point contact (QPC) which is a narrowing of the transport channel in a two-dimensional electron gas(2DEG) heterostructure and is a basic nano-electronic device. When the transpor ...
Geometries, Band Gaps, Dipole Moments, Ionization Energies and
... Existing and potential applications of QDs include solar cells, transistors, diode lasers, biomedical imaging, and even quantum computing. Thanks to their small radii, QDs can be suspended in a liquid solution relatively easily favoring less expensive and less time-consuming methods to prepare semic ...
... Existing and potential applications of QDs include solar cells, transistors, diode lasers, biomedical imaging, and even quantum computing. Thanks to their small radii, QDs can be suspended in a liquid solution relatively easily favoring less expensive and less time-consuming methods to prepare semic ...
Superconducting Circuits and Quantum Computation
... currently intractable with today’s computers. Information in a quantum computer is stored on quantum variables, and that information is processed by making those variables interact in a way that preserves quantum coherence. Typically, these variables consist of two quantum states, and the quantum de ...
... currently intractable with today’s computers. Information in a quantum computer is stored on quantum variables, and that information is processed by making those variables interact in a way that preserves quantum coherence. Typically, these variables consist of two quantum states, and the quantum de ...
- Philsci-Archive
... are in constant interaction with it. Isolation, if possible, is only achievable for finite and very short times. For any larger time range, for most physical systems, the interaction with the environment becomes crucial. The origins of interventionism can be traced back to the mid 20th century, more ...
... are in constant interaction with it. Isolation, if possible, is only achievable for finite and very short times. For any larger time range, for most physical systems, the interaction with the environment becomes crucial. The origins of interventionism can be traced back to the mid 20th century, more ...
X-Ray Diffraction and Scanning Probe Microscopy
... This module is designed to introduce students to two major tools that are used to determine the structure of matter and to reinforce concepts associated with electromagnetic radiation. Historically, X-ray and related diffraction methods have provided a great deal of information about crystalline mat ...
... This module is designed to introduce students to two major tools that are used to determine the structure of matter and to reinforce concepts associated with electromagnetic radiation. Historically, X-ray and related diffraction methods have provided a great deal of information about crystalline mat ...
Physics 2009
... b. Students know how to identify transverse and longitudinal waves in mechanical media, such as springs and ropes, and on the earth (seismic waves). c. Students know how to solve problems involving wavelength, frequency, and wave speed. d. Students know sound is a longitudinal wave whose speed depen ...
... b. Students know how to identify transverse and longitudinal waves in mechanical media, such as springs and ropes, and on the earth (seismic waves). c. Students know how to solve problems involving wavelength, frequency, and wave speed. d. Students know sound is a longitudinal wave whose speed depen ...