Quantum Optics with Matter-Wave Quantum Emitters

Tanner R O'Neal; Hongyi Huang; Youngshin Kim; Alfonso Lanuza; Dominik Schneble

Quantum Optics with Matter-Wave Quantum Emitters

POSTER

Abstract

Harnessing light-matter interactions is central to the development of modern quantum technologies. Here, ultracold atoms in optical lattices provide a versatile platform for simulating such interactions with matter waves and lattice-trapped atoms playing the role of radiation and quantum emitter respectively. This platform allows for the observation of novel phenomena which may be experimentally inaccessible in conventional quantum optics setups. Following earlier studies of spontaneous emission [1] and polariton physics [2], our group has recently explored non-Markovian super- and sub-radiance of matter-wave quantum emitters [3]. We review our group’s recent work and present ongoing investigations of matter-wave scattering phenomena.

Publication: [1] Spontaneous emission of matter waves from a tunable open quantum system, Ludwig Krinner, Michael Stewart, Arturo Pazmino, Joonhyuk Kwon, Dominik Schneble, Nature 559, 589 (2018)<br>[2] Formation of matter-wave polaritons in an optical lattice, Joonhyuk Kwon, Youngshin Kim, Alfonso Lanuza, Dominik Schneble, Nat. Phys. 18, 657 (2022)<br>[3] Super- and subradiant dynamics of quantum emitters mediated by atomic matter waves, Youngshin Kim, Alfonso Lanuza, Dominik Schneble, Nat. Phys. 21, 70 (2025); Exact solution of the collective non-Markovian decay of two fully excited quantum emitters, Alfonso Lanuza, Dominik Schneble, Phys. Rev. Res. 6, 033196 (2024)

Presenters

Tanner R O'Neal

Stony Brook University

Authors

Tanner R O'Neal

Stony Brook University
Hongyi Huang

Stony Brook University (SUNY)
Youngshin Kim

Stony Brook University (SUNY)
Alfonso Lanuza

Stony Brook University (SUNY)
Dominik Schneble

Stony Brook University (SUNY)