Abstract
In this work, Interaction of a Tavis-Cummings system with single photon packet is studied by quantum master and filter equations with considering homodyne detector. We present result of simulation for two two-level atoms and analyze effects of adding an external single-photon magnetic field.
Highlights
Quantum technologies in the current world have a wide range of applications in different areas
A non-classic state of light that is vital in quantum systems and quantum communication protocols is single photon that is used in quantum filtering of open quantum systems [4,5]
Quantum filtering plays an important role in quantum measurement
Summary
Quantum technologies in the current world have a wide range of applications in different areas. We studied the behavior of two atoms that interact with single-photon wave packet. We consider a non-classical state of light in the sense that it cannot be described in terms of a classical electric field that is single photon packet. Tavis-Cummings system, output field is continuously measured by homodyne detection the output light is estimated by stochastic master equation (Quantum filtering). The evolution of a quantum system can be described as [16] Where this is stochastic master equation (SME) and Figure 1: Behavior of interaction two of non-interacting two-level atoms with single photon.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
