We argue that (first-order) coherence is a relative, and not and absolute, property. It is shown how feedforward or feedback can be employed to make two (or more) lasers relatively coherent. We also show that after the relative coherence is established, the two lasers will stay relatively coherent for some time even if the feedforward or feedback loop has been turned off, enabling, e.g., demonstration of unconditional quantum teleportation using lasers
We investigate quantum coherences between excited states induced on quantum systems upon excitation ...
A laser, be it an optical laser or an atom laser, is an open quantum system which produces a coheren...
We present the phase control of photon correlations in a driven four-level system in the double lamb...
The mutual coherence of two coupled semiconductor lasers is investigated experimentally. It is demon...
Reliable and achievable quantum information processing depends greatly on high-efficiency and succes...
This thesis is a study of coherence theory in light in classical electromagnetism and quantum optics...
Understanding of coherence properties of optical fields is of basic importance both in classical opt...
Session B « Photonics & Lasers and Applications »International audienceSynchronization of two oscill...
We examine the phase relationships between different packets of a beam of light emitted from a cavit...
\u3cp\u3eLine broadening up to 25 GHz in a single-mode semiconductor laser with relatively strong op...
International audiencePhase locking of two fiber lasers is obtained by mutual injection. The coheren...
It is shown that quantum-nondemolition-mediated feedback is able to preserve the interference fringe...
A major signature of quantum mechanics beyond classical physics is coherence, the existence of super...
The concept of coherence which has conventionally been used in optics is found to be inadequate to t...
The argument of Rudolph and Sanders, while technically correct, raises conceptual problems. In parti...
We investigate quantum coherences between excited states induced on quantum systems upon excitation ...
A laser, be it an optical laser or an atom laser, is an open quantum system which produces a coheren...
We present the phase control of photon correlations in a driven four-level system in the double lamb...
The mutual coherence of two coupled semiconductor lasers is investigated experimentally. It is demon...
Reliable and achievable quantum information processing depends greatly on high-efficiency and succes...
This thesis is a study of coherence theory in light in classical electromagnetism and quantum optics...
Understanding of coherence properties of optical fields is of basic importance both in classical opt...
Session B « Photonics & Lasers and Applications »International audienceSynchronization of two oscill...
We examine the phase relationships between different packets of a beam of light emitted from a cavit...
\u3cp\u3eLine broadening up to 25 GHz in a single-mode semiconductor laser with relatively strong op...
International audiencePhase locking of two fiber lasers is obtained by mutual injection. The coheren...
It is shown that quantum-nondemolition-mediated feedback is able to preserve the interference fringe...
A major signature of quantum mechanics beyond classical physics is coherence, the existence of super...
The concept of coherence which has conventionally been used in optics is found to be inadequate to t...
The argument of Rudolph and Sanders, while technically correct, raises conceptual problems. In parti...
We investigate quantum coherences between excited states induced on quantum systems upon excitation ...
A laser, be it an optical laser or an atom laser, is an open quantum system which produces a coheren...
We present the phase control of photon correlations in a driven four-level system in the double lamb...
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