We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fermions. The conventional model for interacting right-moving electrons with spin has an SO(4) symmetry, and can be written as four interacting Majorana fermions, each with the same velocity. We have found a method for solving some cases when the velocities of these Majorana fermions are no longer equal. We demonstrate in some detail the remarkable result that corrections to the skeleton self-energy identically vanish fur these models, and this enables us to solve them exactly. For the cases where the model can be solved by bosonization, our method can be explicitly checked. However, we are also able to solve some cases where the excitation spe...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
International audienceIn this work we provide for a description of the low-energy physics of interac...
Recent experimental progress on ultracold atomic gases have opened up the possibility to simulate ma...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
International audienceIn this work we provide for a description of the low-energy physics of interac...
Recent experimental progress on ultracold atomic gases have opened up the possibility to simulate ma...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a "bootstrap'' method for solving a class of interacting one-dimensional chiral fe...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
We have developed a fermionic boot-strap method to solve a class of chiral one-dimensional fermion m...
International audienceIn this work we provide for a description of the low-energy physics of interac...
Recent experimental progress on ultracold atomic gases have opened up the possibility to simulate ma...