Electrically pumped terahertz laser based on a topological insulator quantum dot array

“…[101] These excellent performances of the electrically pumped topological laser can also be attributed to the topological structure, which can generate a synthetic gauge field for photons through direction dependent phase accumulation, efficiently protecting photonic modes bypass corners and defects. [102][103][104][105][106] By using the topological structure in the field of electrically pumped PCC-based nanobeam lasers or other electrically pumped nanolasers, it may induce new physical and experimental phenomena and open up a new technical route for the further development of electrically pumped nanolasers.…”

Recent Developments of Electrically Pumped Nanolasers

“…[101] These excellent performances of the electrically pumped topological laser can also be attributed to the topological structure, which can generate a synthetic gauge field for photons through direction dependent phase accumulation, efficiently protecting photonic modes bypass corners and defects. [102][103][104][105][106] By using the topological structure in the field of electrically pumped PCC-based nanobeam lasers or other electrically pumped nanolasers, it may induce new physical and experimental phenomena and open up a new technical route for the further development of electrically pumped nanolasers.…”

Recent Developments of Electrically Pumped Nanolasers

“…[31][32][33][34] THz waves are electromagnetic waves with a frequency range from 0.1 THz to 10 THz. THz waves have broad application prospects in the fields of switchable sensing, 35,36 wireless communication, 35,37,38 medical diagnosis, 39 astronomy, 40 topological excitonic insulators, [41][42][43] and food safety. 44 Using THz waves to drive micro-nano motors has more potential advantages than using other wave bands.…”

Quantized energy harvesting in vibrating maglev graphite driven by terahertz waves

Spin-polarized gap in the magnetic Weyl semimetal Co3Sn2S2