Exact diagrammatic approach for dimer-dimer scattering and bound states of three and four resonantly interacting particles

Brodsky, I. V.; Kagan, M. Yu.; Klaptsov, A. V.; Combescot, R.; Leyronas, X.

doi:10.1103/physreva.73.032724

Cited by 116 publications

(97 citation statements)

References 21 publications

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“…We note that dipolar interactions are different from short-or zero-range interactions. Zero-range interactions in 2D always allow a two-body dimer bound state [29], and a state of four bosons will also be bound [34]. This result is different from that in 3D, where the interaction must be sufficiently attractive to produce bound states.…”

Section: Zero-temperature Results: Intralayer-interaction Effectmentioning

confidence: 88%

BCS-BEC crossover in bilayers of cold fermionic polar molecules

et al. 2012

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We investigate the quantum and thermal phase diagram of fermionic polar molecules loaded in a bilayer trapping potential with perpendicular dipole moment. We use both a BCS-theory approach that is most reliable at weak coupling and a strong-coupling approach that considers the two-body bound dimer states with one molecule in each layer as the relevant degree of freedom. The system ground state is a Bose-Einstein condensate (BEC) of dimer bound states in the low-density limit and a paired superfluid (BCS) state in the high-density limit. At zero temperature, the intralayer repulsion is found to broaden the regime of BCS-BEC crossover and can potentially induce system collapse through the softening of roton excitations. The BCS theory and the strongly coupled dimer picture yield similar predictions for the parameters of the crossover regime. The Berezinskii-Kosterlitz-Thouless transition temperature of the dimer superfluid is also calculated. The crossover can be driven by many-body effects and is strongly affected by the intralayer interaction which was ignored in previous studies.

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Section: Zero-temperature Results: Intralayer-interaction Effectmentioning

confidence: 88%

BCS-BEC crossover in bilayers of cold fermionic polar molecules

et al. 2012

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“…Interactions between dimers are described by a dimer-dimer scattering length a dd 0.60 a, given by the exact resolution of the 4-fermion scattering problem [16,209]. However, it is not clear to which extent the many-body ground state is merely equal to the equation of state of n d = n/2 bosons with short-range interactions described by a scattering length a dd .…”

Section: Equation Of State Of a Bosonic Super Uidmentioning

confidence: 99%

Thermodynamics of Ultracold Fermi Gases

Nascimbène

Navon

Chevy

et al. 2010

Latin America Optics and Photonics Conference

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“…In the literature, three-boson problems in two dimensions are only solved for the case with the same kind of interaction (either repulsive or attractive) between bosons, 11,[13][14][15]27 To address the stability of the two dimensional system, we need to take into account both repulsive and attractive interactions, and for all possible scattering channels. We then consider three interacting bosons in two dimensions.…”

Section: 17mentioning

confidence: 99%

Three-boson bound states in two dimensions

Ren

Aleǐner

2017

Phys. Rev. B

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We investigate the possible existence of the bound state in the system of three bosons interacting with each other via zero-radius potentials in two dimensions (it can be atoms confined in two dimensions or tri-exciton states in heterostructures or dihalogenated materials). The bosons are classified in two species (a,b) such that a-a and b-b pairs repel each other and a-b attract each other, forming the two-particle bound state with binding energy (such as bi-exciton). We developed an efficient routine based on the proper choice of basis for analytic and numerical calculations. For zero-angular momentum we found the energies of the three-particle bound statesfor wide ranges of the scattering lengths, and found a universal curve ofwhich depends only on the scattering lengths but not the microscopic details of the interactions.

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Exact diagrammatic approach for dimer-dimer scattering and bound states of three and four resonantly interacting particles

Cited by 116 publications

References 21 publications

BCS-BEC crossover in bilayers of cold fermionic polar molecules

BCS-BEC crossover in bilayers of cold fermionic polar molecules

Thermodynamics of Ultracold Fermi Gases

Three-boson bound states in two dimensions

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