Discovering the Nucleus of the Indivisible
... Quarks and leptons have no structure, as best as we know. ...
... Quarks and leptons have no structure, as best as we know. ...
Lecture 2: Bogoliubov theory of a dilute Bose gas Abstract
... infinite volume V but finite particle density, I want to investigate more closely the consequences of having a nondegenerate ground state. I consider the cases of both noninteracting many-body Hamiltonians such as Ĥ in Eq. (2.12) and interacting many-body Hamiltonians5 that commute with Q̂. The Hil ...
... infinite volume V but finite particle density, I want to investigate more closely the consequences of having a nondegenerate ground state. I consider the cases of both noninteracting many-body Hamiltonians such as Ĥ in Eq. (2.12) and interacting many-body Hamiltonians5 that commute with Q̂. The Hil ...
Algebraic spin liquid in an exactly solvable spin model
... Thus, depending on the fermion and flux parity, P either annihilates a given direct product state, |ψi , or maps it to the equal weight linear superposition of all gauge transformations acting on |ψi. For instance, when there is a π-flux through each plaquette, which, as discussed below, is the grou ...
... Thus, depending on the fermion and flux parity, P either annihilates a given direct product state, |ψi , or maps it to the equal weight linear superposition of all gauge transformations acting on |ψi. For instance, when there is a π-flux through each plaquette, which, as discussed below, is the grou ...
Quantum Field Theory
... can be created from the vacuum and annihilate again, temporarily “borrowing” some energy from the vacuum. Such particles, which do not appear in the initial and final states of a process, are called virtual particles. In the case of the hydrogen atom the effect of taking into account the lowest orde ...
... can be created from the vacuum and annihilate again, temporarily “borrowing” some energy from the vacuum. Such particles, which do not appear in the initial and final states of a process, are called virtual particles. In the case of the hydrogen atom the effect of taking into account the lowest orde ...
Neutrons Hologram
... such great potential to advance our understanding of nuclear structure. The nucleus of 133Sb is particular interesting because its immediate neighbor 132Sn is a so-called double magic nuclide. Out of the 133 nucleons that compose the nucleus 133Sb, 132 are nicely wrapped up in a stable core of shell ...
... such great potential to advance our understanding of nuclear structure. The nucleus of 133Sb is particular interesting because its immediate neighbor 132Sn is a so-called double magic nuclide. Out of the 133 nucleons that compose the nucleus 133Sb, 132 are nicely wrapped up in a stable core of shell ...
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... decoupled copies of a Chern insulator. Chern insulators[15] are band insulators exhibiting a nonzero quantized Hall conductance (or integer quantum Hall effect) in the absence of a magnetic field. Chern insulators provide the simplest microscopic models of time reversal symmetry breaking topological ...
... decoupled copies of a Chern insulator. Chern insulators[15] are band insulators exhibiting a nonzero quantized Hall conductance (or integer quantum Hall effect) in the absence of a magnetic field. Chern insulators provide the simplest microscopic models of time reversal symmetry breaking topological ...
Quantum Theory of Particles and Fields
... integrals(ILIs) which are evaluated from the Feynman diagrams The crucial point in LORE method is the presence of two intrinsic energy scales introduced via the string-mode regulators in the regularization prescription acting on the ILIs. These two intrinsic energy scales have been shown to play the ...
... integrals(ILIs) which are evaluated from the Feynman diagrams The crucial point in LORE method is the presence of two intrinsic energy scales introduced via the string-mode regulators in the regularization prescription acting on the ILIs. These two intrinsic energy scales have been shown to play the ...
