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Four interacting spins: Addition of angular momenta, spin–spin correlation functions, and entanglement
Raimundo R. dos Santos, Lucas Alves Oliveira, Natanael C. Costa -
Half-filled extended Hubbard model on a square lattice: Phase boundaries from determinant quantum Monte Carlo simulations
Sebastião dos Anjos Sousa-Júnior, Natanael C. Costa, Raimundo R. dos Santos -
Kaleidoscope of phases tuned by global dipole orientations in the Hubbard model
Tiago Mendes-Santos, Rubem Mondaini, Thereza Paiva, Raimundo R. dos Santos -
Magnetism and metal-insulator transitions in the anisotropic kagome lattice
Lucas O. Lima, Andressa R. Medeiros-Silva, Raimundo R. dos Santos, Thereza Paiva, Natanael C. Costa -
Thermodynamic, magnetic, and transport properties of the repulsive Hubbard model on the kagome lattice
Andressa R. Medeiros-Silva, Natanael C. Costa, Thereza Paiva -
Magnetism and metal-insulator transitions in the Rashba-Hubbard model
Welberth Kennedy, Sebastião dos Anjos Sousa-Júnior, Natanael C. Costa, Raimundo R. dos Santos -
Two-dimensional attractive Hubbard model and the BCS-BEC crossover
Rodrigo A. Fontenele, Natanael C. Costa, Raimundo R. dos Santos, Thereza Paiva -
Theory of hole-spin qubits in strained germanium quantum dots
L. A. Terrazos, E. Marcellina, Zhanning Wang, S. N. Coppersmith, Mark Friesen, A. R. Hamilton, Xuedong Hu, Belita Koiller, A. L. Saraiva, Dimitrie Culcer, Rodrigo B. Capaz -
Broken Luttinger theorem in the two-dimensional Fermi-Hubbard model
Ian Osborne, Thereza Paiva, Nandini Trivedi -
Dynamical resilience to disorder: The dilute Hubbard model on the Lieb lattice
L. Oliveira-Lima, N. C. Costa, J. Pimentel de Lima, R. T. Scalettar, R. R. dos Santos -
Thermodynamics and magnetism in the two-dimensional to three-dimensional crossover of the Hubbard model
Eduardo Ibarra-García-Padilla, Rick Mukherjee, Randall G. Hulet, Kaden R. A. Hazzard, Thereza Paiva, Richard T. Scalettar -
Stokes–anti-Stokes correlated photon properties akin to photonic Cooper pairs
Filomeno S. de Aguiar Júnior, André Saraiva, Marcelo F. Santos, Belita Koiller, Reinaldo de Melo e Souza, Arthur Patrocínio Pena, Raigna A. Silva, Carlos H. Monken, Ado JorioPhotons interact with each other in condensed matter through the same mechanism that forms Cooper pairs in superconductors—the exchange of virtual phonons [A. Saraiva et al., Phys. Rev. Lett. 119, 193603 (2017)]. It is, however, unclear which consequences of this interaction will be observable and potentially lead to further analogy with superconductivity. We investigate the energy, momentum, and production rate of correlated Stokes– anti-Stokes (SaS) photons in diamond and other transparent media, experiencing properties akin to those of electronic Cooper pairs. The rate of correlated SaS production depends on the energy shifts of the pair, which in the BCS theory determines whether there should be an attractive or repulsive interaction. With this view, we only observe correlated SaS in the case of attractive interactions. While traditional photon-phonon collisions scatter light in all directions, the correlated SaS photons follow the same path as the noninteracting laser. The observed correlated SaS photon pairs are rare, but our model indicates paths to achieve higher interaction energies.
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Physical Properties of Photonic Cooper Pairs Generated via Correlated Stokes–anti‐Stokes Raman Scattering
Filomeno S. de Aguiar Júnior, Carlos H. Monken, Marcelo F. Santos, Reinaldo de Melo e Souza, André Saraiva, Belita Koiller, Ado Jorio -
Two-dimensional semiconductors pave the way towards dopant-based quantum computing
José Carlos Abadillo-Uriel, Belita Koiller, María José Calderón -
Adequacy of Si:P chains as Fermi–Hubbard simulators
Amintor Dusko, Alain Delgado, André Saraiva, Belita Koiller
1 a 15 de 25 Publicações encontradas Grupo(s): GMCT - UFRJ