Material growth and device fabrication of terahertz quantum-cascade laser based on bound-to-continuum structure

The terahertz quantum-cascade laser （THz QCL） based on bound-to-continuum structure is demonstrated. The X-ray diffraction measurement of the material shows a high crystalline quality of the active region. A THz QCL device was fabricated with semi-insulating surface-plasmon waveguide. The test device is lasing at about 3 THz and operating up to 60 K. It shows a single frequency property under different drive currents and temperatures. At 9 K, the maximum output power is greater than 2 mW with a threshold current density of 159 A/cm2.     

太赫兹波段金属阵列结构的透射及反射宽谱偏振特性

基于计算机仿真技术(CST)软件对二维金属光栅阵列在0.1~10THz波段的偏振特性进行了数值分析,利用光刻和金属薄膜工艺在500μm厚的高阻硅衬底上沉积了20nm厚的不同结构周期的金属铜光栅阵列,利用傅里叶变换光谱仪测量了该光栅阵列的透射及反射特性。结果表明:在太赫兹宽谱范围内,该光栅阵列的透射和反射都具有良好的偏振特性,且偏振特性范围可通过调整结构周期进行调节;该研究对太赫兹偏振器的进一步研究及应用提供了参考。     

Detection of a directly modulated terahertz light with quantum-well photodetector

We demonstrate a wireless transmission link at 3.9 THz over a distance of 0.5 m by employing a terahertz （Hz） quantum-cascade laser （QCL） and a THz quantum-well photodetector （QWP）. We make direct voltage modulation of the THz QCL and use a spectral-matched THz QWP to detect the modulated THz light from the laser. The small signal model and a direct voltage modulation scheme of the laser are presented. A square wave up to 30 MHz is added to the laser and detected by the THz detector. The bandwidth limit of the wireless link is also discussed.     

Real-time video signal transmission over a terahertz communication link

A 2.4-m communication link operating at 3.9 THz based on a terahertz quantum cascade laser and a terahertz quantum well photodetector （THz QWP） are introduced. The lumped electrical models of THz QWP for small signals are presented. A discussion of the bandwidth limit of the detecting circuit is presented. Using direct on off-keying modulation and intensity detection, the transmission of digital video signal with a data rate of 2.5 Mb/s is demonstrated. Pseudo-random binary sequences are transmitted to investigate the bit-error rate （BER） at different rates. Result shows the error free transmission when the rate is below 5 Mb/s.     

光伏型太赫兹量子阱探测器研究进展

光伏型太赫兹量子阱探测器(PV-THzQWIP)是光伏型量子阱光电探测器(PV-QWIP)在THz波段的扩展,它具有功耗低、暗电流小、噪声水平低以及焦平面阵列(FPAs)热分辨率高等优点,是THz频段技术应用的重要器件之一.文章主要介绍了PV-THzQWIP的工作原理、特点、理论设计及其研究进展.     

半绝缘等离子体波导太赫兹量子级联激光器工艺研究

采用气态源分子束外延设备生长了GaAs/AlGaAs束缚态到连续态跃迁结构的太赫兹（THz）量子级联激光器（QCL）有源区结构,研究了半绝缘等离子体波导THz QCL的器件工艺,采用远红外傅里叶变换光谱仪以及探测器测量了器件的电光特性.器件激射频率为32 THz,10 K下的阈值电流密度为275 A/cm². 关键词： 太赫兹 量子级联激光器 波导 器件工艺     

基于太赫兹量子阱探测器的太赫兹量子级联激光器发射谱研究

采用一个光谱匹配的太赫兹(THz)量子阱探测器(QWP)研究了一激射频率约为41 THz的THz量子级联激光器(QCL)在不同驱动电流下的发射谱,分析了测量得到的发射谱谱型和谱峰位置,根据测量的发射谱估算了太赫兹量子级联激光器发射功率随驱动电流变化的情况,从而得到了THz QCL激射的电流密度范围及其阈值电流密度.文中还研究了THz QWP在不同温度下对THz QCL 激光辐射的响应特性.研究结果表明,THz QWP在表征THz QCL的发射谱方面是一种很好的探测器,并有望成为未来THz通信中的接收装置. 关键词： 太赫兹量子阱探测器 太赫兹量子级联激光器 太赫兹通信 Fourier变换红外光谱     

Wireless terahertz light transmission based on digitally-modulated terahertz quantum-cascade laser

A wireless terahertz digital transmission link is demonstrated, in which a quantum-cascade laser and a spectrally-matched quantum-well photodetector serve as the emitter and receiver, respectively. An on-off modulation scheme is used. By directly amplitude modulating the laser emitting at 4.13 THz, a 1.0-Mbps pseudorandom signal is transmitted over a distance of 2.2 m.     

太赫兹量子级联激光器材料生长及表征

采用气态源分子束外延方法生长了束缚态到连续态跃迁太赫兹量子级联激光器（terahertz quantum-cascade laser,简称THz QCL）有源区结构,并且采用电化学CV仪、霍尔测试仪以及高分辨X射线衍射对材料的质量进行表征,得出THz QCL有源区具有很高的晶体质量.另外,采用蒙特卡罗方法模拟了共振声子THz QCL器件的I-V曲线,分析了在不同偏压下子能级的对齐状况和电子的输运特征. 关键词： 太赫兹 量子级联激光器 分子束外延 X射线衍射     

高压涡轮动叶叶尖非定常气热特性研究

本文针对高压涡轮动叶凹槽叶尖流动传热问题开展非定常数值模拟研究。结果表明,TBR模型Time Transformation方法适用于动叶叶尖非定常气热分析。压力侧泄漏流引起的卷吸涡在凹槽底部形成带状高换热系数区,机匣边界层流动使吸力侧肋顶靠近前缘区域形成局部高换热系数。随着叶尖凹槽深度增加,凹槽内流场低速区域扩大,卷吸涡尺寸也随之增大。相应地,凹槽底部的换热过程减弱,沿压力侧肋分布的带状高换热系数区域范围减小,其位置逐渐远离压力侧肋,并且在特定时刻呈现间断离散的分布特点。不同时刻,2%凹槽深度的叶尖中凹槽底部的平均换热系数相比3%凹槽深度的叶尖升高7.1%～13.5%,相比3.5%凹槽深度的叶尖升高9.6%～21.9%。