We measured the lattice and subband electronic temperatures of terahertz quantum cascade devices based on the optical phonon-scattering assisted active region scheme. While the electronic temperature of the injector state (j = 4) significantly increases by Delta T = T-e(4) - T-L similar to 40 K, in analogy with the reported values in resonant phonon scheme (Delta T similar to 70-110 K), both the laser levels (j = 2,3) remain much colder with respect to the latter (by a factor of 3-5) and share the same electronic temperature of the ground level (j = 1). The electronic population ratio n(2)/n(1) shows that the optical phonon scattering efficiently depopulates the lower laser level (j = 2) up to an electronic temperature T-e similar to 180 K.
Electronic temperatures of terahertz quantum cascade active regions with phonon scattering assisted injection and extraction scheme
Patimisco P;Santacroce M V;Spagnolo V;Vitiello M S;
2013
Abstract
We measured the lattice and subband electronic temperatures of terahertz quantum cascade devices based on the optical phonon-scattering assisted active region scheme. While the electronic temperature of the injector state (j = 4) significantly increases by Delta T = T-e(4) - T-L similar to 40 K, in analogy with the reported values in resonant phonon scheme (Delta T similar to 70-110 K), both the laser levels (j = 2,3) remain much colder with respect to the latter (by a factor of 3-5) and share the same electronic temperature of the ground level (j = 1). The electronic population ratio n(2)/n(1) shows that the optical phonon scattering efficiently depopulates the lower laser level (j = 2) up to an electronic temperature T-e similar to 180 K.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.