We propose a simple method to obtain a superposition of coherent states on a circle, including Schrödinger cat states as a special case, via conditional measurement of the state of three level atoms interacting with a one mode cavity field. In the low amplitude limit, very good approximation of Fock states can also be generated in this way
An atomic electron is prepared in a state closely analogous to Schrödinger’s coherent superposition...
Using resonant interaction between atoms and the field in a high quality cavity, we show how to gene...
An atomic electron is prepared in a state closely analogous to Schrödinger’s coherent superposition...
We consider a physical process that leads to the generation of atomic Schrodinger cat states for a s...
We propose the cavity quantum electrodynamics method, using dispersive interaction between atoms and...
The quantum interference between the two parts of the optical Schrodinger-cat state makes possible t...
A scheme for the preparation of coherent superposition of Fock states of electromagnetic field is co...
We investigate the dynamics of a two-level atom in a cavity filled with a nonlinear medium. We show ...
In a recent experiment the progressive decoherence of a mesoscopic superposition of two coherent fi...
A method of generating generalized Schrödinger cat states by considering the resonant interaction of...
In this chapter, we discuss how Schrodinger cat states (superpositions of well-separated coherent st...
We present an effective method of coherent state superposition (cat state) generation using single t...
We propose a method for generating an optical Schrodinger-cat-like state in a cavity in a substantia...
We propose the cavity quantum electrodynamics method, using dispersive interaction between atoms and...
The manufacture and study of the decoherence ofmesoscopic superposition states, commonly called "Sch...
An atomic electron is prepared in a state closely analogous to Schrödinger’s coherent superposition...
Using resonant interaction between atoms and the field in a high quality cavity, we show how to gene...
An atomic electron is prepared in a state closely analogous to Schrödinger’s coherent superposition...
We consider a physical process that leads to the generation of atomic Schrodinger cat states for a s...
We propose the cavity quantum electrodynamics method, using dispersive interaction between atoms and...
The quantum interference between the two parts of the optical Schrodinger-cat state makes possible t...
A scheme for the preparation of coherent superposition of Fock states of electromagnetic field is co...
We investigate the dynamics of a two-level atom in a cavity filled with a nonlinear medium. We show ...
In a recent experiment the progressive decoherence of a mesoscopic superposition of two coherent fi...
A method of generating generalized Schrödinger cat states by considering the resonant interaction of...
In this chapter, we discuss how Schrodinger cat states (superpositions of well-separated coherent st...
We present an effective method of coherent state superposition (cat state) generation using single t...
We propose a method for generating an optical Schrodinger-cat-like state in a cavity in a substantia...
We propose the cavity quantum electrodynamics method, using dispersive interaction between atoms and...
The manufacture and study of the decoherence ofmesoscopic superposition states, commonly called "Sch...
An atomic electron is prepared in a state closely analogous to Schrödinger’s coherent superposition...
Using resonant interaction between atoms and the field in a high quality cavity, we show how to gene...
An atomic electron is prepared in a state closely analogous to Schrödinger’s coherent superposition...
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