Ultrafast spectroscopy in high magnetic fields (Presentation Recording)

D. Hilton
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Abstract

Two-dimensional systems offer a rich array of physical phenomena that include the integer and fractional quantum Hall effects, both of which have been observed in multiple materials systems to date. The mitigation and control of coherence in quantum states in 2D systems is an area of great current interest that is critical for the development of the next generation of solid state electronics based on quantum phenomena. In the first experiments that I will discuss, we investigate the terahertz frequency properties of a high mobility (μ ≥ 106 cm2 V-1 s-1) gallium arsenide two-dimensional electron gas (2DEG) at cyclotron resonance in a perpendicular magnetic field, which results in the formation of a spectrum of Landau levels. Our experiments reveal a strong increase in the decoherence at low temperatures and a power law dependence to the decoherence time from T = 0.4 - 100 K. In the second part of the talk, I will discuss our high fluence, nondegenerate pump-probe spectroscopic experiments of GaAs in the Florida Split Helix magnet at 15 K and 25 T. We model the electronic component of our data with an approximate four level system, from which we have extracted scattering and recombination rates in high magnetic field. We also observe coherent phonons, which were isolated and fitted to a sinusoid with an oscillation frequency of 43.5 GHz at 25 T, which is 3.0% larger than the previously measured zero field frequency.
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高磁场中的超快光谱学(演示记录)
二维系统提供了丰富的物理现象阵列,包括整数和分数量子霍尔效应,这两种效应都已在多种材料系统中观察到。二维系统中量子态相干性的缓解和控制是当前非常感兴趣的领域,对于基于量子现象的下一代固态电子学的发展至关重要。在我将要讨论的第一个实验中,我们研究了高迁移率(μ≥106 cm2 V-1 s-1)砷化镓二维电子气体(2DEG)在垂直磁场回旋共振下的太赫兹频率特性,从而导致朗道能级谱的形成。我们的实验表明,在低温下,退相干性有很强的增加,并且在T = 0.4 - 100 K范围内,退相干时间与幂律相关。在演讲的第二部分,我将讨论我们在15 K和25 t的佛罗里达分裂螺旋磁体中GaAs的高通量,非简并泵探光谱实验。我们用近似四能级系统模拟了我们数据的电子成分,从中我们提取了高磁场下的散射和复合率。我们还观察到相干声子,它们在25 T时被分离并拟合到振荡频率为43.5 GHz的正弦波中,比之前测量的零场频率大3.0%。
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