What Does 0.1 Expected Photon Per Pulse Mean in Quantum Cryptography?

In summary, the conversation discusses the paper "Experimental Quantum Cryptography" and its mention of laser pulses with an expected photon of 0.1 per pulse. The question is raised about the physical meaning of this and whether the pulses contain actual photons or are in a superposition state. Another paper on the same topic is mentioned, which claims that laser radiation follows Poisson statistics in photon number. The conversation concludes with a related question about Rabi oscillations and state probabilities induced by photons.
  • #1
phonon44145
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Maybe a stupid question, but anyway. The paper "Experimental Quantum Cryptography" by C. Bennettet al. discusses laser pulses of 0.1 expected photon per pulse. What does that mean physically? Is it that 90% of laser pulses are not pulses at all, containing no photons and thereby no energy? Or are these pulses real in the same sense as wave function is real and the photon wave function can collapse into anyone of the pulses? Or is it that each pulse is a Schrodinger Cat superposition between emitted and non-emitted photon? If it can be of any help, another paper on the same topic (S. N. Molotkov, "Integration of Quantum Cryptography into fiber-optic telecommunication systems") claims that laser radiation(coherent state) has Poisson statistics in the photon number. Thanks in advance.
 
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  • #2
I don't think that this is a stupid question! because I have a similar question involving Rabi oscillations of state probabilities induced by photons or parts of photons. Since this tread is do old, I'll post my question as a new thread.
 

What is the definition of "Number of photons per pulse"?

The number of photons per pulse refers to the amount of light energy released in a single burst or pulse of light. It is a measure of the intensity of light and is typically expressed in units of photons.

How is the number of photons per pulse measured?

The number of photons per pulse can be measured using various techniques, such as a photodetector or a spectrometer. These methods involve counting the number of photons in a given time period or measuring the energy of the photons.

What factors can affect the number of photons per pulse?

The number of photons per pulse can be affected by several factors, including the intensity of the light source, the duration of the pulse, and the properties of the medium through which the light is passing. Additionally, the number of photons per pulse can vary depending on the type of light being emitted (e.g. laser light vs. natural light).

Why is the number of photons per pulse important in scientific research?

The number of photons per pulse is an important parameter in many scientific experiments and applications. It can provide information about the behavior of light and its interaction with matter, as well as help determine the sensitivity and accuracy of measurements. Additionally, it is crucial in fields such as optics, photonics, and quantum mechanics.

Can the number of photons per pulse be controlled?

Yes, the number of photons per pulse can be controlled in various ways. For example, in laser technology, the number of photons per pulse can be adjusted by changing the intensity of the light source or altering the duration of the pulse. In quantum optics, researchers are also able to manipulate the number of photons per pulse using techniques such as photon number squeezing.

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