Electronic structure of quantum dots
... systems was crossed. Much of the many-body physics that was developed for the understanding of atoms or nuclei could be applied. In turn, measurements on artificial atoms yielded a wealth of data from which a fundamental insight into the many-body physics of lowdimensional finite fermion systems was ...
... systems was crossed. Much of the many-body physics that was developed for the understanding of atoms or nuclei could be applied. In turn, measurements on artificial atoms yielded a wealth of data from which a fundamental insight into the many-body physics of lowdimensional finite fermion systems was ...
Signatures of Majorana zero-modes in nanowires, quantum spin
... Majorana zero-modes, also referred to as Majorana bound states or Majorinos, are states in the middle of the excitation gap of a superconductor (so at zero excitation energy), bound to a magnetic vortex or other defect. The name goes back to a concept introduced by the Italian physicist Ettore Major ...
... Majorana zero-modes, also referred to as Majorana bound states or Majorinos, are states in the middle of the excitation gap of a superconductor (so at zero excitation energy), bound to a magnetic vortex or other defect. The name goes back to a concept introduced by the Italian physicist Ettore Major ...
Operator Guide Standard Model
... becomes non linear when translated into spinor language. This means that some problems that are simple in one of these formalisms will become nonlinear problems, difficult to solve, in the other. To take advantage of both these sorts of problem solving, we must have tools to move back and forth betw ...
... becomes non linear when translated into spinor language. This means that some problems that are simple in one of these formalisms will become nonlinear problems, difficult to solve, in the other. To take advantage of both these sorts of problem solving, we must have tools to move back and forth betw ...