123 research outputs found
Comment on "Detuning effects in the one-photon mazer"
In a recent work, Bastin and Martin (B-M) [Phys. Rev. A 67, 053804 (2003)]
have analyzed the quantum theory of the mazer in the off-resonant case.
However, our analysis of this case refutes their claim by showing that their
evaluation of the coupled equations for the off-resonant case is not
satisfactory. The correct expression can be obtained by applying an appropriate
formulae for the involved dressed-state parameters.Comment: 4 page
Semiclassical stability analysis of a two-photon laser including spatial variation of the cavity field
We investigate the dynamics of a two-photon laser under conditions where the
spatial variation of the cavity field along the cavity axis is important. Main
attention is paid to linear stability analysis and numerical investigation of a
two-photon laser for the Maxwell-Bloch equations. The model assumes pumping to
the upper state of the two-photon transition. We consider the Maxwell-Bloch
equations on the basis of which we study the stability analysis of the steady
state of the system. The system is taken to be contained in a ring-laser
cavity. Asymptotic expansion of the eigenvalue and analytic information are
obtained in some realistic limits, such as very large reflectivity, very small
cavity losses, or very small population relaxation rate. The results are
illustrated with an application to a specific atomic system (Potassium) as an
amplifying medium.Comment: 17 pages, 3 figure
A Novel Efficient Quantum Random Access Memory
Owing to the significant progress in manufacturing desktop quantum computers, the quest to achieve efficient quantum random access memory (QRAM) became inevitable. In this paper, we propose a novel efficient random access memory for quantum computers. The proposed QRAM has a fixed structure and can be used efficiently to store both known and unknown classical/quantum data. The storage capacity of the proposed QRAM is more efficient than that of the classical RAMs and can be used to store both classical and quantum information. Furthermore, the proposed model can access an arbitrary location in O(1) compared with other state-of-the-art models
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