Evidencing `Tight Bound States` in the Hydrogen Atom
... Coulomb tail with a repulsive core at small distances due to the A/r4 term [1]. For proper values of potential (5) its coefficients could have another potential well in addition to the one at distances of the order of the Bohr radius where new physics is suggested to be ‘located’. Additional theoret ...
... Coulomb tail with a repulsive core at small distances due to the A/r4 term [1]. For proper values of potential (5) its coefficients could have another potential well in addition to the one at distances of the order of the Bohr radius where new physics is suggested to be ‘located’. Additional theoret ...
The Persistent Spin Helix
... Fitting of experimental data to Boltzman transport equations, for Rashba/Dresselhauss ~ 0.2 - 0.3. Even though the Rashba and Dresselhauss are not yet equal, large enhancement of spin-lifetime for the spin helix is ...
... Fitting of experimental data to Boltzman transport equations, for Rashba/Dresselhauss ~ 0.2 - 0.3. Even though the Rashba and Dresselhauss are not yet equal, large enhancement of spin-lifetime for the spin helix is ...
ppt
... Quantum Automatic Repeat Request (ARQ) Protocol Fidelity of Quantum ARQ Protocol • Quantum Codes of Finite Lengths • The asymptotical Case (the code length ...
... Quantum Automatic Repeat Request (ARQ) Protocol Fidelity of Quantum ARQ Protocol • Quantum Codes of Finite Lengths • The asymptotical Case (the code length ...
Chapter 3 Wave Properties of Particles Overview
... If matter has a wavelength, there must be some function–a “wave function”—which describes the wave nature of the matter in question. Do you think that if we could somehow find out what this wave function is, and what mathematical laws it obeys, then maybe we could learn something about the matter t ...
... If matter has a wavelength, there must be some function–a “wave function”—which describes the wave nature of the matter in question. Do you think that if we could somehow find out what this wave function is, and what mathematical laws it obeys, then maybe we could learn something about the matter t ...
Supersymmetry
... 2. What’s about Lie superalgebras? The importance of LSA in physics deals, among other, with the connection with supersymmetry (briefly described before). In constructing supersymmetric integrable models, the request of integrability implies several solutions for the Cartan matrix Kij. In con ...
... 2. What’s about Lie superalgebras? The importance of LSA in physics deals, among other, with the connection with supersymmetry (briefly described before). In constructing supersymmetric integrable models, the request of integrability implies several solutions for the Cartan matrix Kij. In con ...
Δk/k
... 9th lecture: Summary 8th lecture: NMR special techniques Spin-echo (SE): π/2-flip plus 'refocussing' π-flip. ...
... 9th lecture: Summary 8th lecture: NMR special techniques Spin-echo (SE): π/2-flip plus 'refocussing' π-flip. ...
A High Security Information System (Joe Johnson)
... including SU3, SUn (quantum mechanics) Heisenberg Lie Algebra [x,p] = I Creation & annihilation algebra [a+r,as] = Irs ...
... including SU3, SUn (quantum mechanics) Heisenberg Lie Algebra [x,p] = I Creation & annihilation algebra [a+r,as] = Irs ...
Physics 3 for Electrical Engineering
... principle, and we will see at least one more proof. Is the uncertainty principle a fundamental limit on what we can measure? Or can we evade it? Einstein and Bohr debated this question for years, and never agreed. Today we are certain that uncertainty will not go away. Quantum uncertainty is even th ...
... principle, and we will see at least one more proof. Is the uncertainty principle a fundamental limit on what we can measure? Or can we evade it? Einstein and Bohr debated this question for years, and never agreed. Today we are certain that uncertainty will not go away. Quantum uncertainty is even th ...
