History of Quantum Mechanics or the Comedy of Errors
History of Quantum Mechanics or the Comedy of Errors

Take a Ride on a Time Machine* - Philsci
Take a Ride on a Time Machine* - Philsci

Three-sublattice order in the SU (3) Heisenberg model on the
Three-sublattice order in the SU (3) Heisenberg model on the

... spin- 12 Heisenberg model is believed to be a good low-energy model for the spin degrees of freedom. For the more general case N > 2, it is expected that, at certain fillings, Mott insulating states will also emerge.7,8 However, the spin order (or flavor order) in this case is not understood yet. Th ...
PDF
PDF

Lecture 4. Sturm-Liouville eigenvalue problems
Lecture 4. Sturm-Liouville eigenvalue problems

Discovery of Higgs Boson - High Energy Physics
Discovery of Higgs Boson - High Energy Physics

LECTURE NOTES ON STATISTICAL MECHANICS Scott Pratt Department of Physics and Astronomy
LECTURE NOTES ON STATISTICAL MECHANICS Scott Pratt Department of Physics and Astronomy

Hamilton`s equations. Conservation laws. Reduction
Hamilton`s equations. Conservation laws. Reduction

HiggsIdentity_Part1
HiggsIdentity_Part1

... • We have never observed a fundamental scalar in nature so far. Is the Higgs fundamental? • A scalar mass is “fine-tuned” in quantum field theory, unless it is “cut off” by new physics. Is there new physics at the TeV scale in addition to the Higgs? • How do we know the new physics, if any, reduces ...
From Principles to Diagrams
From Principles to Diagrams

... constant and to a modification of the dynamics of Kähler action however preserving the known extremals and basic properties of Kähler action and allowing to interpret induced Kähler form in terms of preferred imaginary unit defining twistor structure. There are some new results forcing a profound ...
Quantum mechanical description of stress and force in
Quantum mechanical description of stress and force in

... to inhomogeneous external stresses. Is this statement justified? The answer is in the affirmative since the macroscopic stress is arrived at by applying a uniform strain to the ground state of the system and extracting its response. There is no restriction on the strain state of the ground state of ...
Experiment 1 – Data and Error Analysis
Experiment 1 – Data and Error Analysis

Indistinguishable photons from a single-photon device
Indistinguishable photons from a single-photon device

... the same pulse. Numerous applications for single-photon sources have been proposed in the field of quantum information, but most—including linear-optical quantum computation12—also require consecutive photons to have identical wave packets. For a source based on a single quantum emitter, the emitter ...
Classical canonical transformation theory as a tool to describe
Classical canonical transformation theory as a tool to describe

Maximally entangling tripartite protocols for Josephson phase qubits *
Maximally entangling tripartite protocols for Josephson phase qubits *

Slides
Slides

Supersymmetry (SUSY)
Supersymmetry (SUSY)

Cryptographic distinguishability measures for quantum
Cryptographic distinguishability measures for quantum

... of the other four measures. In other words, these four notions are equivalent, and it is legitimate to speak of a single, unified exponential indistinguishability for two families of quantum states. The contribution of this paper is threefold. In the first place, even though some of the quantum ineq ...
Dynamical Phase Transitions in Quantum Systems
Dynamical Phase Transitions in Quantum Systems

non-relativistic Breit
non-relativistic Breit

PPT1
PPT1

Measuring the Rydberg Constant Using Circular Rydberg Atoms in
Measuring the Rydberg Constant Using Circular Rydberg Atoms in

Chapter 3 Basic quantum statistical mechanics of spin
Chapter 3 Basic quantum statistical mechanics of spin

... where abc is the completely antisymmetric tensor with xyz = 1. This algebra is familiar as the algebra of generations of rotations (i.e. the components of the angular momentum). Here, the rotation is not in the position of the spins, but rather in its “direction” (in quotes because it is of course ...
Generation of Pure Bulk Valley Current in Graphene
Generation of Pure Bulk Valley Current in Graphene

Heisenberg uncertainty relations for photons
Heisenberg uncertainty relations for photons

Scalar field theory

In theoretical physics, scalar field theory can refer to a classical or quantum theory of scalar fields. A scalar field is invariant under any Lorentz transformation.The only fundamental scalar quantum field that has been observed in nature is the Higgs field. However, scalar quantum fields feature in the effective field theory descriptions of many physical phenomena. An example is the pion, which is actually a pseudoscalar.Since they do not involve polarization complications, scalar fields are often the easiest to appreciate second quantization through. For this reason, scalar field theories are often used for purposes of introduction of novel concepts and techniques.The signature of the metric employed below is (+, −, −, −).