Modelling quantum light-matter interactions in waveguide-QED with retardation and a time-delayed feedback: matrix product states versus a space-discretized waveguide model

“…Potentially, the most powerful method for the waveguide quantum electrodynamics problems could become the matrix product state (MPS) approach that has been very recently proposed in (Regidor et al, 2020). The matrix product states technique is an established and very powerful method to consider many-body effects in onedimensional condensed matter systems (Orús, 2014).…”

“…At the first glance, one may conclude that the MPS approach is not suitable for WQED setups that feature long-range photon-mediated interactions between the atoms. Regidor et al have shown how to circumvent this issue by discretizing the problem in space and time (Regidor et al, 2020). This technique also automatically handles the non-Markovian effects, and hopefully it will become a widely used powerful and practical tool.…”

Waveguide quantum electrodynamics: collective radiance and photon-photon correlations

“…Potentially, the most powerful method for the waveguide quantum electrodynamics problems could become the matrix product state (MPS) approach that has been very recently proposed in (Regidor et al, 2020). The matrix product states technique is an established and very powerful method to consider many-body effects in onedimensional condensed matter systems (Orús, 2014).…”

“…At the first glance, one may conclude that the MPS approach is not suitable for WQED setups that feature long-range photon-mediated interactions between the atoms. Regidor et al have shown how to circumvent this issue by discretizing the problem in space and time (Regidor et al, 2020). This technique also automatically handles the non-Markovian effects, and hopefully it will become a widely used powerful and practical tool.…”

Waveguide quantum electrodynamics: collective radiance and photon-photon correlations