Share

High-power Terahertz Pulse Generation and Nonlinear Terahertz Carrier Dynamics in Semiconductors

2015 Semiconductors
Download High-power Terahertz Pulse Generation and Nonlinear Terahertz Carrier Dynamics in Semiconductors PDF Online Free

Author :
Release : 2015
Genre : Semiconductors
Kind : eBook
Book Rating : /5 ( reviews)

GET EBOOK


Book Synopsis High-power Terahertz Pulse Generation and Nonlinear Terahertz Carrier Dynamics in Semiconductors by : Ayesheshim Kebie Ayesheshim

Download or read book High-power Terahertz Pulse Generation and Nonlinear Terahertz Carrier Dynamics in Semiconductors written by Ayesheshim Kebie Ayesheshim. This book was released on 2015. Available in PDF, EPUB and Kindle. Book excerpt: This thesis describes the generation, characterization, and nonlinear application of intense terahertz (THz) pulses. Nonlinear THz spectroscopy has emerged as a powerful tool to study the ultrafast time evolution of high-field charge carrier dynamics in semiconductors and nano-materials. The study of such phenomena in semiconductors and semiconductor structures requires intense THz pulses with high electric-field strengths. We have developed an improved experimental setup for generating high-power, nearsingle cycle THz pulses by tilted-pulse-front optical rectification in LiNbO3 with optimized optical-to-THz conversion efficiency, and proper characterization of the THz pulses in the Ultrafast Nanotools lab at the University of Alberta. We have investigated the effects of optical pump pulse pre-chirping and polarization on THz pulse generation using separate compressors for the optical pulses used for THz generation and detection. By down-chirping the 800 nm optical pump pulses to 385 fs, single-cycle THz pulses with energies up to 3.6 microJ were obtained, corresponding to an energy conversion efficiency of 3x10^{-3}. This high-field THz source is capable of generating electric fields greater than which can induce nonlinear carrier dynamics in semiconductors. We demonstrate novel high-field THz experiments that explore nonlinear processes in doped and photo-excited bulk semiconductors. As a benchmark and consistency check, a nonlinear THz absorption bleaching Z-scan experiment was conducted on an n-doped InGaAs epilayer on a lattice matched InP substrate. This experiment confirmed that the THz pulses generated by our source are adequate for ultrafast nonlinear measurements in the THz frequency range. Even more interesting, we have achieved unprecedented THz field absorption bleaching simply by flipping the face of the sample illuminated by the THz pulse pump. That is, we illuminate the insulating (substrate) side of the sample with the THz pulse in the Z-scan experiment rather than illuminating the usual (conducting) face of the sample. In this study considerable insight has been gained into developing an optical diode. We have also developed a technique to measure transient voltage pulses induced in doped and photoexcited semiconductors due to a shift current generated from the nonlinear THz dynamics of free electrons in the conduction band. This is a fascinating feature with a practical application as an ultrafast and ultra-sensitive THz phtotodetector. A Drude-based dynamic intervalley scattering simulation reveals that the nonlinear THz-induced transient voltage pulses are a result of intervalley scattering driven by high-field THz pulses. It is the first time that THz induced picosecond voltage transients are measured in semiconductors. We find that an intense THz pulse incident on an InGaAs sample excites a transient dipole due to intervalley scattering. Also, THz pulse induced transient voltage signals have been investigated in ZnTe, and doped-Si semiconductors due to a direct flow of free carriers upon THz photon absorption. We have observed nonlinear conductivity responses in Si, ZnTe, photo-excited SI-GaAs, and doped InGaAs, showing the strong THz pulse can heat the electron population and create a momentum distribution leading to saturable absorption in the THz frequency range.

Generating and Using Terahertz Radiation to Explore Carrier Dynamics of Semiconductor and Metal Nanostructures

2012 Metallic films
Download Generating and Using Terahertz Radiation to Explore Carrier Dynamics of Semiconductor and Metal Nanostructures PDF Online Free

Author :
Release : 2012
Genre : Metallic films
Kind : eBook
Book Rating : /5 ( reviews)

GET EBOOK


Book Synopsis Generating and Using Terahertz Radiation to Explore Carrier Dynamics of Semiconductor and Metal Nanostructures by : Andrew D. Jameson

Download or read book Generating and Using Terahertz Radiation to Explore Carrier Dynamics of Semiconductor and Metal Nanostructures written by Andrew D. Jameson. This book was released on 2012. Available in PDF, EPUB and Kindle. Book excerpt: In this thesis, I present studies in the field of terahertz (THz) spectroscopy. These studies are divided into three areas: Development of a narrowband THz source, the study of carrier transport in metal thin films, and the exploration of coherent dynamics of quasi-particles in semiconductor nanostructures with both broadband and narrowband THz sources. The narrowband THz source makes use of type II difference frequency generation (DFG) in a nonlinear crystal to generate THz waves. By using two linearly chirped, orthogonally polarized optical pulses to drive the DFG, we were able to produce a tunable source of strong, narrowband THz radiation. The broadband source makes use of optical rectification of an ultra-short optical pulse in a nonlinear crystal to generate a single-cycle THz pulse. Linear spectroscopic measurements were taken on NiTi-alloy thin films of various thicknesses and titanium concentrations with broadband THz pulses as well as THz power transmission measurements. By applying a combination of the Drude model and Fresnel thin-film coefficients, we were able to extract the DC resistivity of the NiTi-alloy thin films. Using the narrowband source of THz radiation, we explored the exciton dynamics of semiconductor quantum wells. These dynamics were made sense of by observing time-resolved transmission measurements and comparing them to theoretical calculations. By tuning the THz photon energy near exciton transition energies, we were able to observe extreme nonlinear optical transients including the onset of Rabi oscillations. Furthermore, we applied the broadband THz waves to quantum wells embedded in a microcavity, and time-resolved reflectivity measurements were taken. Many interesting nonlinear optical transients were observed, including interference effects between the modulated polariton states in the sample.

Intense Terahertz Excitation of Semiconductors

2006 Language Arts & Disciplines
Download Intense Terahertz Excitation of Semiconductors PDF Online Free

Author :
Release : 2006
Genre : Language Arts & Disciplines
Kind : eBook
Book Rating : 302/5 ( reviews)

GET EBOOK


Book Synopsis Intense Terahertz Excitation of Semiconductors by : Sergey Ganichev

Download or read book Intense Terahertz Excitation of Semiconductors written by Sergey Ganichev. This book was released on 2006. Available in PDF, EPUB and Kindle. Book excerpt: This work presents the first comprehensive treatment of high-power terahertz applications to semiconductors and low-dimensional semiconductor structures. Terahertz properties of semiconductors are in the centre of scientific activities because of the need of high-speed electronics.

Characterization of Terahertz Emission from High Resistivity Fe-doped Bulk Ga0.69In0.31As Based Photoconducting Antennas

2011-06-07 Science
Download Characterization of Terahertz Emission from High Resistivity Fe-doped Bulk Ga0.69In0.31As Based Photoconducting Antennas PDF Online Free

Author :
Release : 2011-06-07
Genre : Science
Kind : eBook
Book Rating : 985/5 ( reviews)

GET EBOOK


Book Synopsis Characterization of Terahertz Emission from High Resistivity Fe-doped Bulk Ga0.69In0.31As Based Photoconducting Antennas by : Suranjana Sengupta

Download or read book Characterization of Terahertz Emission from High Resistivity Fe-doped Bulk Ga0.69In0.31As Based Photoconducting Antennas written by Suranjana Sengupta. This book was released on 2011-06-07. Available in PDF, EPUB and Kindle. Book excerpt: Terahertz science and technology is attracting great interest due to its application in a wide array of fields made possible by the development of new and improved terahertz radiation sources and detectors. This book focuses on the development and characterization of one such source - namely the semi-large aperture photoconducting (PC) antenna fabricated on Fe-doped bulk Ga0.69In0.31As substrate. The high ultrafast carrier mobility, high resistivity, and subpicosecond carrier lifetime along with low bandgap make Ga0.69In0.31As an excellent candidate for PC antenna based THz emitter that can be photoexcited by compact Yb-based multiwatt laser systems for high power THz emission. The research is aimed at evaluating the impact of physical properties of a semi-large aperture Ga0.69In0.31As PC antenna upon its THz generation efficiency, and is motivated by the ultimate goal of developing a high-power terahertz radiation source for time-domain terahertz spectroscopy and imaging systems.

Nonlinear Terahertz Spectroscopy of Carbon Nanomaterials and Semiconductor Nanostructures

2014 Carbon nanotubes
Download Nonlinear Terahertz Spectroscopy of Carbon Nanomaterials and Semiconductor Nanostructures PDF Online Free

Author :
Release : 2014
Genre : Carbon nanotubes
Kind : eBook
Book Rating : /5 ( reviews)

GET EBOOK


Book Synopsis Nonlinear Terahertz Spectroscopy of Carbon Nanomaterials and Semiconductor Nanostructures by : Michael Jason Paul

Download or read book Nonlinear Terahertz Spectroscopy of Carbon Nanomaterials and Semiconductor Nanostructures written by Michael Jason Paul. This book was released on 2014. Available in PDF, EPUB and Kindle. Book excerpt: This thesis will cover my work relating to the developing field of terahertz (THz) science and technology. It will present experimental and theoretical studies investigating the optical and electrical properties of various material systems using novel THz imaging and spectroscopy techniques. Due to its low photon energy, THz imaging and spectroscopy are useful tools for non-contact, non-destructive probing of materials. Broadband, single-cycle THz pulses are prepared using modern THz generation technology. Using the THz detection techniques of THz raster imaging and THz time-domain spectroscopy (THz-TDS), the local carrier dynamics of nanomaterials such as graphene and carbon nanotubes were determined. THz measurements on single-layer graphene grown with different recipes and on various substrates exhibit sub-millimeter spatial inhomogeneity of sheet conductivity. THz transmission data reveals that a thin plastic, polymethyl methacrylate (PMMA), layer in contact with single-layer graphene induces a small yet noticeable reduction in conductivity. Ulterior THz measurements performed on vertically-aligned multi-walled carbon nanotubes (V-MWCNT) employ time-resolved THz transmission ellipsometry. The angle- and polarization-resolved transmission measurements reveal anisotropic characteristics of the THz electrodynamics in V-MWCNT. The anisotropy is, however, unexpectedly weak: the ratio of the tube-axis conductivity to the transverse conductivity, [sigma]_z / [sigma]_ xy ~= 2.3, is nearly constant over the broad spectral range of 0.4-1.6 THz. The relatively weak anisotropy and the strong transverse electrical conduction indicate that THz fields readily induce electron transport between adjacent shells within the multi-walled carbon nanotubes. In-depth coverage of the development of a high-field THz generation system based on a lithium niobate prism will be presented. The evolution of techniques in the realm of high power THz generation is ongoing. The resolved issues throughout implementation include: magnesium doping, phase matching, and wave front distortion. The high power, broadband THz emitter (maximum THz field, E_max> 1 MV/cm) allows for nonlinear THz spectroscopy of various material systems including single-layer graphene and high-resistivity, bulk GaAs. THz-induced transparency is observed in two types of single-layer graphene samples: (i) suspended graphene-PMMA layer and (ii) graphene embedded in dielectrics. THz-induced transparency is shown to be significantly higher in suspended graphene than in graphene on a Si substrate. The experimental observation leads to a universal nonlinear THz property of graphene that the sheet conductivity undergoes two-fold reduction when THz fields reach 0.8 MV/cm. We confirm the generality of this result by measuring different grapheme samples on different substrates. Time-resolved THz transmission measurements show that the THz-induced transparency in graphene is dynamic; the transient conductivity gradually decreases throughout the pulse duration. The large THz fields induce sub-picosecond electron thermalization and subsequent carrier-carrier scattering, transiently modulating the electrical and optical properties, in effect reducing the electrical conductivity of graphene by an order of magnitude. Nonlinear THz spectroscopy methods are also applied to the investigation of a nano-antenna patterned, high-resistivity, intrinsic GaAs wafer. The antenna near-field reaches 20 MV/cm due to a huge field enhancement in the plasmonic nanostructure. Thus, the nonlinear THz interactions take place in the confined nanometer-scale region adjacent to the antenna. As a result of the huge THz fields, nano-antenna patterned GaAs demonstrates remarkably strong nonlinear THz effects. The fields are strong enough to generate high density free carriers (N_e> 1017 cm−3) via high-energy interband excitations associated with a series of impact ionizations (n_I H"33-37); thus inducing large absorption of THz radiation (> 35%).

You may also like...