Low Temperature Physics: 43, 152 (2017); https://doi.org/10.1063/1.4974192
Физика Низких Температур: Том 43, Выпуск 1 (Январь 2017), c. 182-189    ( к оглавлению , назад )

Long-lived magnetoexcitons in 2D-fermion system

L.V. Kulik, A.S. Zhuravlev, A.V. Gorbunov, V.B. Timofeev, and I. V. Kukushkin

Institute of Solid State Physics, RAS, Chernogolovka 142432, Russian Federation
E-mail: gorbunov@issp.ac.ru

Received July 29, 2016


The paper addresses the experimental technique that, when applied to a 2D-electron system in the integer quantum Hall regime with filling factor ν = 2 (the Hall insulating state), allows resonant excitation of magnetoexcitons, their detection, control of an ensemble of long-lived triplet excitons and investigation of their radiationless decay related to exciton spin relaxation into the ground state. The technique proposed enables independent control of photoexcited electrons and Fermi-holes using photoinduced resonance reflection spectra as well as estimate with a reasonable degree of accuracy the resulting density of photoinduced electron-hole pairs bound into magnetoexcitons. The mere existence of triplet excitons was directly established by inelastic light scattering spectra which were analyzed to determine the value of singlet-triplet exciton splitting. It was found that the lifetimes of triplet excitons conditioned by electron spin relaxation in highly perfect GaAs/AlGaAs heterostructures with highly mobile 2D electrons are extremely long exceeding 100 μs at T < 1 K. The paper presents a qualitative explanation of the long-spin relaxation lifetimes which are unprecedented for translation-invariant 2D systems. This enabled us to create sufficiently high concentrations of triplet magnetoexcitons, electrically neutral excitations following Bose–Einstein statistics, in a Fermi electron system and investigate their collective properties. At sufficiently high densities of triplet magnetoexcitons and low temperatures, Т < 1 K, the degenerate magnetofermionic system exhibits condensation of the triplet magnetoexcitons into a qualitatively new collective state with unusual properties which occurs in the space of generalized moments (magnetic translation vectors). The occurrence of a condensed phase is accompanied with a significant decrease in the viscosity of the photoexcited system, which is responsible for electron spin transport at macroscopic distances, as well as with the effects of threshold enhancement of the system response to the external action of the electromagnetic field and emergence of a new intensive radiative recombination channel.

PACS: 71.35.Lk Collective effects (Bose effects, phase space filling, and excitonic phase transitions);
PACS: 73.21.Fg Electron states and collective excitations in multilayers, quantum wells, mesoscopic, and nanoscale systems: Quantum wells;
PACS: 78.67.De Optical properties of low-dimensional, mesoscopic, and nanoscale materials and structures: Quantum wells.

Ключевые слова: two-dimensional cyclotron singlet and triplet magnetoexcitons, Hall insulator, 2D-fermion system, magnetofermionic condensate.

Published online: November 25, 2016