Add to ORKGEfimov physics in ultracold gases is described very well by the universal scaling laws, based on the scattering length and van der Waals length. The first can be tuned magnetically via a Feshbach resonance, the second is constant and connected to the radial range of the potential.However, experimental hints at non-universal behavior, when going away from resonance, are quite badly understood. The next leading coefficient in the scattering phase shift, the effective range parameter, gives an indication of this non-universality, but at the same time it can also be strongly dependent on the magnetic field. Moreover, higher-order terms take over quickly when increasing the collision energy. We show how the finite range corrections can be unders...
International audience"Resummed-Range Effective Field Theory'' is a consistent nonrelativistic effec...
The scattering length is commonly used to characterize the strength of ultracold atomic interactions...
The scattering length is commonly used to characterize the strength of ultracold atomic interactions...
Efimov physics in ultracold gases is described very well by the universal scaling laws, based on the...
The quantum Efimov effect manifests itself in the limit of resonant two-body interactions, where the...
We discuss the impact of a finite effective range on three-body systems interacting through a large ...
We have measured the binding energy of 7Li Feshbach molecules deep into the nonuniversal regime by a...
In this chapter, we describe scattering resonance phenomena in general, and focus on the mechanism o...
In this chapter, we describe scattering resonance phenomena in general, and focus on the mechanism o...
We provide an exact solution of the Efimov spectrum in ultracold gases within the standard two-chann...
I discuss the impact of a finite effective range, r, on systems with a large two-b...
\u3cp\u3eWe study the universality of the three-body parameters for systems relevant for ultracold q...
I discuss the impact of a finite effective range, r, on systems with a large two-body scattering leng...
Elastic scattering of three bosons at low energy is a fundamental problem in the many-body descripti...
International audience"Resummed-Range Effective Field Theory'' is a consistent nonrelativistic effec...
International audience"Resummed-Range Effective Field Theory'' is a consistent nonrelativistic effec...
The scattering length is commonly used to characterize the strength of ultracold atomic interactions...
The scattering length is commonly used to characterize the strength of ultracold atomic interactions...
Efimov physics in ultracold gases is described very well by the universal scaling laws, based on the...
The quantum Efimov effect manifests itself in the limit of resonant two-body interactions, where the...
We discuss the impact of a finite effective range on three-body systems interacting through a large ...
We have measured the binding energy of 7Li Feshbach molecules deep into the nonuniversal regime by a...
In this chapter, we describe scattering resonance phenomena in general, and focus on the mechanism o...
In this chapter, we describe scattering resonance phenomena in general, and focus on the mechanism o...
We provide an exact solution of the Efimov spectrum in ultracold gases within the standard two-chann...
I discuss the impact of a finite effective range, r, on systems with a large two-b...
\u3cp\u3eWe study the universality of the three-body parameters for systems relevant for ultracold q...
I discuss the impact of a finite effective range, r, on systems with a large two-body scattering leng...
Elastic scattering of three bosons at low energy is a fundamental problem in the many-body descripti...
International audience"Resummed-Range Effective Field Theory'' is a consistent nonrelativistic effec...
International audience"Resummed-Range Effective Field Theory'' is a consistent nonrelativistic effec...
The scattering length is commonly used to characterize the strength of ultracold atomic interactions...
The scattering length is commonly used to characterize the strength of ultracold atomic interactions...