2019
DOI: 10.1063/1.5079697
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Enhanced terahertz emission from strain-induced InGaAs/InAlAs superlattices

Abstract: We propose, fabricate, and evaluate strain-induced InGaAs/InAlAs superlattice (SL), which can efficiently radiate broadband terahertz (THz) waves. By means of optical pump-probe measurements, we demonstrate ultrashort photocarriers relaxation times of τ∼1.7ps without Be-doping of InGaAs photoconductive layers. We assume two dominant mechanisms to be responsible for a sharp reduction of τ in strained SL, which are photocarriers scattering at InGaAs/InAlAs heterointerface roughness and the decrease in the energy… Show more

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Cited by 37 publications
(20 citation statements)
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“…1. The pulsed radiation emitters are commonly based on photoconductive antennas (PCAs), [25][26][27][28] although other methods exist, such as optical rectification and generation in plasma. [29][30][31] Modern PCA emitters produce short sub-picosecond THz pulses, featuring only a few cycles of the THz field's oscillation and a broadband spectrum.…”
Section: Thz Instrumentationmentioning
confidence: 99%
“…1. The pulsed radiation emitters are commonly based on photoconductive antennas (PCAs), [25][26][27][28] although other methods exist, such as optical rectification and generation in plasma. [29][30][31] Modern PCA emitters produce short sub-picosecond THz pulses, featuring only a few cycles of the THz field's oscillation and a broadband spectrum.…”
Section: Thz Instrumentationmentioning
confidence: 99%
“…THz technologies are still far from clinical application, suffering from a list of problems, such as low performance of THz sources and detectors, and low spatial resolution due to high absorbtion and scattering. 46 , 47 However, the rapid progress of THz sources and optical components in the recent years 48 52 stimulates the further improvements of THz instruments for biophotonics. A strong limitation is caused by the absence of efficient waveguides and fibers.…”
Section: Resultsmentioning
confidence: 99%
“…LT-InAlAs layers have a higher dark resistivity as compared to LT-InGaAs and exhibit deep trap states that are situated energetically below the antisite defect levels of adjacent InGaAs layers. With acceptor doping by beryllium (Be) atoms, LT-InGaAs/InAlAs superlattices demonstrate both low residual electron concentration and short carrier lifetimes in the sub-picosecond range [17][18][19].…”
Section: Introductionmentioning
confidence: 99%