14,557 research outputs found
Quantum Abacus
We show that the U(2) family of point interactions on a line can be utilized
to provide the U(2) family of qubit operations for quantum information
processing. Qubits are realized as localized states in either side of the point
interaction which represents a controllable gate. The manipulation of qubits
proceeds in a manner analogous to the operation of an abacus.
Keywords: quantum computation, quantum contact interaction, quantum wireComment: 4 Pages ReVTeX4 with 3 figure
Quantum contact interactions
The existence of several exotic phenomena, such as duality and spectral
anholonomy is pointed out in one-dimensional quantum wire with a single defect.
The topological structure in the spectral space which is behind these phenomena
is identified.Comment: A lecture presented at the 2nd Winter Institute on Foundations of
Quantum Theory and Quantum Optics (WINST02), Jan. 2-11, 2002, S.N.Bose
Institute, Calcutta, India: 8 pages latex with Indian Acad. Sci. style fil
Potential-controlled filtering in quantum star graphs
We study the scattering in a quantum star graph with a F\"ul\"op--Tsutsui
coupling in its vertex and with external potentials on the lines. We find
certain special couplings for which the probability of the transmission between
two given lines of the graph is strongly influenced by the potential applied on
another line. On the basis of this phenomenon we design a tunable quantum
band-pass spectral filter. The transmission from the input to the output line
is governed by a potential added on the controlling line. The strength of the
potential directly determines the passband position, which allows to control
the filter in a macroscopic manner. Generalization of this concept to quantum
devices with multiple controlling lines proves possible. It enables the
construction of spectral filters with more controllable parameters or with more
operation modes. In particular, we design a band-pass filter with independently
adjustable multiple passbands. We also address the problem of the physical
realization of F\"ul\"op--Tsutsui couplings and demonstrate that the couplings
needed for the construction of the proposed quantum devices can be approximated
by simple graphs carrying only potentials.Comment: 41 pages, 17 figure
Green Function Monte Carlo Method for Excited States of Quantum System
A novel scheme to solve the quantum eigenvalue problem through the
imaginary-time Green function Monte Carlo method is presented. This method is
applicable to the excited states as well as to the ground state of a generic
system. We demonstrate the validity of the method with the numerical examples
on three simple systems including a discretized sine-Gordon model.Comment: RevTeX 5pg with 3 epsf figure
Fulop-Tsutsui interactions on quantum graphs
We examine scale invariant Fulop-Tsutsui couplings in a quantum vertex of a
general degree . We demonstrate that essentially same scattering amplitudes
as for the free coupling can be achieved for two -parameter
Fulop-Tsutsui subfamilies if is odd, and for three -parameter
Fulop-Tsutsui subfamilies if is even. We also work up an approximation
scheme for a general Fulop-Tsutsui vertex, using only function
potentials.Comment: 14 pages elsevier format, new references adde
Classical Aspects of Quantum Walls in One Dimension
We investigate the system of a particle moving on a half line x >= 0 under
the general walls at x = 0 that are permitted quantum mechanically. These
quantum walls, characterized by a parameter L, are shown to be realized as a
limit of regularized potentials. We then study the classical aspects of the
quantum walls, by seeking a classical counterpart which admits the same time
delay in scattering with the quantum wall, and also by examining the
WKB-exactness of the transition kernel based on the regularized potentials. It
is shown that no classical counterpart exists for walls with L < 0, and that
the WKB-exactness can hold only for L = 0 and L = infinity.Comment: TeX, 21 pages, 4 figures. v2: some parts of the text improved, new
and improved figure
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