Introduction to the Bethe Ansatz I
... width is observed in the bound state at k = π, that is, for λ1 = λ2 = N/4, whose k1 , k2 have an infinite imaginary part (see Problem 7). In this case, all coefficients in (9) with n2 6= n1 + 1 are zero, which implies that the two down spins are tightly bound together and have the largest binding en ...
... width is observed in the bound state at k = π, that is, for λ1 = λ2 = N/4, whose k1 , k2 have an infinite imaginary part (see Problem 7). In this case, all coefficients in (9) with n2 6= n1 + 1 are zero, which implies that the two down spins are tightly bound together and have the largest binding en ...
On the Investigation of Quantum Evolution of a
... Investigation into the nature of light has been a fundamental endeavor among scientists for centuries. Particularly, invention of LASER raised great interests in the research of electromagnetic fields. Non-classical properties of light has been an active area of research since then. Also, need for q ...
... Investigation into the nature of light has been a fundamental endeavor among scientists for centuries. Particularly, invention of LASER raised great interests in the research of electromagnetic fields. Non-classical properties of light has been an active area of research since then. Also, need for q ...
104,18415 (2007)
... guarantee topological protection. The most famous example of this is the magnetic Kitaev lattice, described in the pioneering papers (2, 3) on topological quantum computation. The Kitaev model is an exactly soluble lattice model that carries excitations with both Abelian and non-Abelian anyonic brai ...
... guarantee topological protection. The most famous example of this is the magnetic Kitaev lattice, described in the pioneering papers (2, 3) on topological quantum computation. The Kitaev model is an exactly soluble lattice model that carries excitations with both Abelian and non-Abelian anyonic brai ...
Bird`s Eye View - Student Friendly Quantum Field Theory
... The quantum mechanics (QM) courses students take prior to QFT generally treat a single particle such as an electron in a potential (e.g., square well, harmonic oscillator, etc.), and the particle retains its integrity (e.g., an electron remains an electron throughout the interaction.) There is no ge ...
... The quantum mechanics (QM) courses students take prior to QFT generally treat a single particle such as an electron in a potential (e.g., square well, harmonic oscillator, etc.), and the particle retains its integrity (e.g., an electron remains an electron throughout the interaction.) There is no ge ...
3 Ion Trap Implementations
... Figure 37: Schematics of laser cooling Assume a moving atom is interacting with monochromatic laser which is red detuned from the resonance of an electronic transition of the atom. Then, the atom can only absorb photons from the laser light if it moves towards the laser and is thus tuned to resonanc ...
... Figure 37: Schematics of laser cooling Assume a moving atom is interacting with monochromatic laser which is red detuned from the resonance of an electronic transition of the atom. Then, the atom can only absorb photons from the laser light if it moves towards the laser and is thus tuned to resonanc ...
Quantum computing with rare-earth-ion doped crystals
... stay constant throughout the interaction. As previously stated, a pulse that will drive an atom from its ground to its excited state is equivalent to a 180 degree rotation from the south to the north pole around a horizontal axis. Having an unknown laser field strength or unknown laser detuning is e ...
... stay constant throughout the interaction. As previously stated, a pulse that will drive an atom from its ground to its excited state is equivalent to a 180 degree rotation from the south to the north pole around a horizontal axis. Having an unknown laser field strength or unknown laser detuning is e ...
Spectral Composition of Semantic Spaces
... was above this value, we added the corresponding scaled eigenvalue to the term’s spectrum. In this regard, term spectra may overlap, and their simple sum will provide the spectrum of the collection. This metaphor does not account for more complex chemical bonds that create the continuous bands as pi ...
... was above this value, we added the corresponding scaled eigenvalue to the term’s spectrum. In this regard, term spectra may overlap, and their simple sum will provide the spectrum of the collection. This metaphor does not account for more complex chemical bonds that create the continuous bands as pi ...
Decoherence - Center for Ultracold Atoms
... laws and provide new insight on wave-particle duality. We studied decoherence in a system which is simple enough that the measured decoherence rate constant can be compared with ab initio calculations [KRC01] for the first time. This offers a benchmark measurement supporting several quite general th ...
... laws and provide new insight on wave-particle duality. We studied decoherence in a system which is simple enough that the measured decoherence rate constant can be compared with ab initio calculations [KRC01] for the first time. This offers a benchmark measurement supporting several quite general th ...
doc - Dartmouth Math Home
... neutron), or a Helium atom in its ground state. Only bosons may be in close proximity with one another. Fermions (half-integer spin particles), on the other hand, repel each other as they get nearer. It is crucial for BEC that particles within the system considered are able to approach each other, o ...
... neutron), or a Helium atom in its ground state. Only bosons may be in close proximity with one another. Fermions (half-integer spin particles), on the other hand, repel each other as they get nearer. It is crucial for BEC that particles within the system considered are able to approach each other, o ...