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University of Colorado, Boulder

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A Data Science Approach To Stem (Science, Technology, Engineering And Math) Identity Research For African American Communities, Donna Auguste Nov 2019

A Data Science Approach To Stem (Science, Technology, Engineering And Math) Identity Research For African American Communities, Donna Auguste

ATLAS Institute Graduate Theses & Dissertations

Science, technology, engineering and math (STEM) professionals, educators, and researchers seek to broaden participation in STEM fields by underrepresented groups, including the specific demographic of African American people. Prior research has established that diversity in STEM contributes to enhanced innovation and economic benefits. A deeper understanding of the bond between STEM learning and STEM identities may be valuable as we pursue methodologies that broaden participation in STEM fields. This dissertation presents interdisciplinary research on STEM identity for African American communities, implemented as two lines of inquiry.

One line of inquiry involved developing and deploying the Paralinguistic Element Guru (PEG) toolkit ...


A Study Of Methods For Improving Volume Conservation In Incompressible Two-Phase Flow On Unstructured Meshes, Meredith Katherine Purser Nov 2019

A Study Of Methods For Improving Volume Conservation In Incompressible Two-Phase Flow On Unstructured Meshes, Meredith Katherine Purser

Aerospace Engineering Sciences Graduate Theses & Dissertations

Computational modeling of incompressible two-phase flows requires an efficient means of tracking the interface between phases. An ideal method would directly provide information about the interface's location and curvature, would be strictly volume conserving, and would work for parallel computing on unstructured meshes. For incompressible two-phase flows, there are several popular interface tracking schemes, but each has significant shortcomings. For example, while level set schemes directly provide the location and curvature of the interface, they do not strictly conserve volume. Conversely, volume of fluid methods strictly conserve volume, but they do not directly provide the interface's location or ...


Characterizing Photobioregenerative Technology For Simultaneous Thermal Control And Air Revitalization Of Spacecraft And Surface Habitats, Emily E. Matula Nov 2019

Characterizing Photobioregenerative Technology For Simultaneous Thermal Control And Air Revitalization Of Spacecraft And Surface Habitats, Emily E. Matula

Aerospace Engineering Sciences Graduate Theses & Dissertations

Algal photobioreactors have been researched as potential solutions to air revitalization in a spacecraft cabin environment by absorbing CO2 and producing O2 through photosynthesis. This photosynthesis, and consumption of produced biomass, theoretically provides a closed-loop solution for long-duration spaceflight. Addressing multiple spaceflight requirements simultaneously with algae has the potential to reduce launch mass, power and volume of future Environmental Control and Life Support (ECLS) systems. Additionally, inoculating algal culture into a water-based thermal cooling loops (flight-proven standard of active cooling found on the International Space Station (ISS)) could incorporate simultaneous air revitalization and thermal control into a common ...


Design, Development, And Prelaunch Calibration Of A Low Cost 118.75 Ghz Temperature Sounding Radiometer For Cubesat Missions, Lavanya Periasamy May 2019

Design, Development, And Prelaunch Calibration Of A Low Cost 118.75 Ghz Temperature Sounding Radiometer For Cubesat Missions, Lavanya Periasamy

Electrical Engineering Graduate Theses & Dissertations

The 118.75 GHz eight-channel, double-side-band scanning temperature sounding radiometer “MiniRad” for CubeSat missions is intended to serve as a demonstrator for a constellation of low cost, quick turn-around millimeter wave and higher frequency passive sounders and imagers for weather forecasting at high spatial and temporal resolution. This radiometer payload, built at the Center for Environmental Technology in partnership with the Colorado Space Grant Consortium and the National Snow and Ice Data Center at the University of Colorado at Boulder, can provide a 3D temperature map from the earth's surface to an altitude of 18~km. For precise prelaunch ...


Coaxial Pcl/Peg-Thiol-Ene Microfiber With Tunable Physico- Chemical Properties For Regenerative Scaffolds, Monica Cristina Iglesias Echevarria Jan 2019

Coaxial Pcl/Peg-Thiol-Ene Microfiber With Tunable Physico- Chemical Properties For Regenerative Scaffolds, Monica Cristina Iglesias Echevarria

Mechanical Engineering Graduate Theses & Dissertations

Tissue regeneration requires scaffolds that exhibit mechanical properties similar to the tissues to be replaced while allowing cell infiltration and extracellular matrix production. Ideally, the scaffolds’ porous architecture and physico-chemical properties can be precisely defined to address regenerative needs. We thus developed techniques to produce hybrid fibers coaxially structured with a polycaprolactone core and a 4-arm, polyethylene glycol thiol-norbornene sheath. We assessed the respective effects of crosslink density and sheath polymer size on the scaffold architecture, physical and mechanical properties, as well as cell-scaffold interactions in vitro and in vivo. All scaffolds displayed high elasticity, swelling and strength, mimicking soft ...


Blebbing Of Hydrogel During Volume-Phase Transition, Jian Kan Jan 2019

Blebbing Of Hydrogel During Volume-Phase Transition, Jian Kan

Mechanical Engineering Graduate Theses & Dissertations

Hydrogels are networks of polymer chains that are capable of absorbing solvent to become gel-like elastomeric materials. One common observation is the formation of patterns on the stimuli-sensitive gel during the phase transition from swollen to shrunk phase. Our research investigates the mechanics behind gel blebbing; when a temperature-sensitive hydrogel encounters a sudden temperature change, multiple ballon-like bubbles can be seen forming on the gel surface during its shrinking phase. The previous researches established that the surface patterns are the result of an impermeable membrane forming on the surface, creating a surface layer which traps the solvent inside and causing ...


Enalbing Energy Dense Battery Materials And Paving The Way For Solid-State Batteries, Simon Elnicki Hafner Jan 2019

Enalbing Energy Dense Battery Materials And Paving The Way For Solid-State Batteries, Simon Elnicki Hafner

Mechanical Engineering Graduate Theses & Dissertations

The explosive growth of electrochemistry and battery research has been fueled by two primary sources; the complexity of lithium-ion chemistries and the potential impact of high-performance energy storage markets. Superior energy storage aims to connect energy produced from clean, renewable sources with the grid fluctuations and transportation demands. Through electrochemical devices, the lithium-ion battery holds high potential to be that connection, and unlocking this potential starts with materials science and engineering. A lack of a singular, clear direction to higher energy dense batteries leaves many pathways open for investigation.

Since the commercialization of lithium-ion batteries, liquid electrolyte systems have dominated ...


Alloy And Defect Properties Of Oxides And Nitrides For Energy Applications, Samantha Lynn Millican Jan 2019

Alloy And Defect Properties Of Oxides And Nitrides For Energy Applications, Samantha Lynn Millican

Chemical & Biological Engineering Graduate Theses & Dissertations

Throughout history societal advancement has been dictated largely by the development of new materials – from iron for weaponry and tools to silicon circuits for computing. Today, the physical properties of many predominant and emerging technologies rely on the departure from the ideal structure through the incorporation of defects and alloying. This thesis reports on the investigation of several systems whose properties are driven by defect formation and alloying.

Spinel aluminate active materials, FeAl2O4 and CoxFe1-xAl2O4, were evaluated for solar thermochemical hydrogen (STCH) production using computational and experimental techniques Hercynite (FeAl2O4) was shown to be viable for STCH for the first ...


Diagnostics And Selective Nano-Therapeutics To Combat Multidrug-Resistant Bacteria, Partha Pratim Chowdhury Jan 2019

Diagnostics And Selective Nano-Therapeutics To Combat Multidrug-Resistant Bacteria, Partha Pratim Chowdhury

Chemical & Biological Engineering Graduate Theses & Dissertations

Due to extensive use of antibiotics various strains multidrug resistant bacteria are emerging rapidly. In USA alone according to CDC report 2013 more than 2 million is affected by these strains of multidrug resistant bacteria causing several deaths. Hence an effective way of diagnostics and therapeutics need to be designed which can successfully combat the menace of

multidrug drug resistant bacteria.

In the present thesis, we discuss about novel strategies for both diagnostics and therapeutics for multidrug resistant bacteria. In the 1st chapter we discuss a novel DNA sequencing technique utilizing purely optical spectroscopy techniques like surface enhanced Raman and ...


Computational Protein Design For Peptide-Directed Bioconjugation, Joseph Gabriel Plaks Jan 2019

Computational Protein Design For Peptide-Directed Bioconjugation, Joseph Gabriel Plaks

Chemical & Biological Engineering Graduate Theses & Dissertations

Proteins enable living organisms to perform many of their critical functions, having been applied over evolutionary time to solve problems of overwhelming diversity and complexity. Protein engineering seeks to deploy these versatile molecules in addressing problems of human concern and would benefit from innovations that improve protein utilization in unnatural environments as well as from increased predictive capability in protein design.

Bioconjugation facilitates the use of proteins in unnatural environments by permitting the attachment of molecules, such as polymers, that can modulate protein stability, solubility, and activity and by mediating protein immobilization. We initially explored this propensity of bioconjugation by ...


Atomic Layer Deposition For Fabrication Of Advanced Polymer Electrolyte Membrane Fuel Cell Catalysts, William Wilson Mcneary Jan 2019

Atomic Layer Deposition For Fabrication Of Advanced Polymer Electrolyte Membrane Fuel Cell Catalysts, William Wilson Mcneary

Chemical & Biological Engineering Graduate Theses & Dissertations

Polymer electrolyte membrane fuel cells (PEMFCs) are highly-efficient devices that convert the chemical energy stored in hydrogen and oxygen into electricity. The commercialization of this technology is hindered by the use of platinum metal to catalyze the oxygen reduction reaction (ORR) on the cathode. In this work, atomic layer deposition (ALD) was applied to the fabrication of PEMFC catalysts in order to improve the utilization of Pt in the ORR as well as the stability of the catalytic Pt nanoparticles over voltage cycling.

Nanostructures of TiO2 were added via ALD to carbon-supported Pt catalysts (Pt/C) in order to ...


Covalent Adaptable Hydrogels To Probe Cellular Mechanotransduction, Ian Alexander Marozas Jan 2019

Covalent Adaptable Hydrogels To Probe Cellular Mechanotransduction, Ian Alexander Marozas

Chemical & Biological Engineering Graduate Theses & Dissertations

In tissues, cells reside within a complex meshwork of proteins called the extracellular matrix (ECM) with which they are intrinsically linked. Cells chemically remodel the ECM by secreting proteins that degrade and rebuild the ECM; additionally, cells physically remodel the ECM by applying stress that permanently deforms the matrix. However, the relationship is reciprocal given that the ECM provides biochemical and biophysical cues that directly influence cellular processes such as migration, transcription, differentiation, proliferation, and morphology. Hydrogels are synthetic water swollen polymer networks that can recapitulate many of the properties of the ECM. The focus of this thesis was to ...


Decision Making Protocol In Autonomous Vehicles For Optimal Routing And Safe Control, Lakhan Shiva Kamireddy Jan 2019

Decision Making Protocol In Autonomous Vehicles For Optimal Routing And Safe Control, Lakhan Shiva Kamireddy

Electrical Engineering Graduate Theses & Dissertations

We analyze two significant decision-making problems namely planning and control in an autonomous driving scenario with an objective of not only improving the safety of drives but also enhancing the vehicle’s capability to make better decisions. We model the decision-making problem of routing in autonomous vehicles and solve for an optimal route when a vehicle approaches an intersection. The proposed solution attempts to balance the congestion in the traffic network, considering the selfish nature of the vehicles. We also analyze decision-making at the level of control and communications. The choices of the framework we use, to model the communication ...


Simultaneous Transmit And Receive (Star) Antennas For Geo-Satellites And Shared-Antenna Platforms, Elie Germain Tianang Jan 2019

Simultaneous Transmit And Receive (Star) Antennas For Geo-Satellites And Shared-Antenna Platforms, Elie Germain Tianang

Electrical Engineering Graduate Theses & Dissertations

This thesis presents the analysis, design, and experimental characterization of antenna systems considered for shipborne, airborne, and space platforms. These antennas are innovated to enable Simultaneous Transmit and Receive (STAR) at same time and polarization, either at the same, or duplex frequencies. In airborne and shipborne platforms, developed antenna architectures may enhance the capabilities of modern electronic warfare systems by enabling concurrent electronic attack and electronic support operations. In space, and more precisely at geostationary orbit, designed antennas aim to decrease the complexity of conventional phased array systems, thereby increasing their capabilities and attractiveness. All antennas researched are first designed ...


Design And Analysis Of A Sic Based Fixed Ratio Dc-Dc Transformer, Shankari B. Ramnath Jan 2019

Design And Analysis Of A Sic Based Fixed Ratio Dc-Dc Transformer, Shankari B. Ramnath

Electrical Engineering Graduate Theses & Dissertations

Dual active bridge (DAB) converters can achieve high efficiencies due to their ability to operate with soft switching. The efficiency of DAB is the highest when its conversion ratio is close to the transformer turns ratio as the inductor current is trapezoidal at this operating point and hence the magnitude of rms currents in the circuit are lower which reduces the losses. Hence, with proper design the dual active bridge can operate with trapezoidal inductor current waveform and zero voltage switching (ZVS) of all its switching devices which will lead to high efficiencies of the DAB. The objective of this ...


Advanced Load Modulated Power Amplifier Architectures, Prathamesh Hirachandra Pednekar Jan 2019

Advanced Load Modulated Power Amplifier Architectures, Prathamesh Hirachandra Pednekar

Electrical, Computer & Energy Engineering Graduate Theses & Dissertations

Power amplifier (PA) applications increasingly require wideband linear operation, such as in carrier aggregation, high-data rate communications as well as several other RF systems including radar, RFID, RF sensing, imaging etc. Additionally, the high peak to average power ratio (PAPR) signals of modern communications systems require operation over a wide dynamic range. Both bandwidth and linearity requirements are at odds with efficiency in conventional amplifier design. As a result, PA design with a simultaneous wideband operation, linearity, and energy efficiency has been a longstanding challenge.

This thesis presents several advanced Load Modulated Balanced Amplifier (LMBA) architectures with a common goal ...


Design, Development, And Prelaunch Calibration Of A Low Cost 118.75 Ghz Temperature Sounding Radiometer For Cubesat Missions, Lavanya Periasamy Jan 2019

Design, Development, And Prelaunch Calibration Of A Low Cost 118.75 Ghz Temperature Sounding Radiometer For Cubesat Missions, Lavanya Periasamy

Electrical, Computer & Energy Engineering Graduate Theses & Dissertations

The 118.75 GHz eight-channel, double-side-band scanning temperature sounding radiometer “MiniRad” for CubeSat missions is intended to serve as a demonstrator for a constellation of low cost, quick turn-around millimeter wave and higher frequency passive sounders and imagers for weather forecasting at high spatial and temporal resolution. This radiometer payload, built at the Center for Environmental Technology in partnership with the Colorado Space Grant Consortium and the National Snow and Ice Data Center at the University of Colorado at Boulder, can provide a 3D temperature map from the earth's surface to an altitude of 18~km. For precise prelaunch ...


Capacity Approximations Of Mimo Interference Channels: Beyond Degrees Of Freedom, Yimin Pang Jan 2019

Capacity Approximations Of Mimo Interference Channels: Beyond Degrees Of Freedom, Yimin Pang

Electrical Engineering Graduate Theses & Dissertations

Spectrum sharing allows the coexistence of heterogeneous wireless networks on the same frequency band. Managing the interference between such networks is critically important to ensure high spectrum efficiency, thus motivating the study of multiple-input-multiple-output (MIMO) interference channels (IC) in information theory. This dissertation studies three classes of such interference channels, namely, the MIMO one-to-three IC, the MIMO IC-ZIC, and the MIMO MAC-IC-MAC.

The MIMO one-to-three IC is a partially connected three-user IC with multiple antenna terminals, where one transmitter that causes interference is heard at all three receivers, whereas the other two transmitters are heard only by their intended receivers ...


Wideband Dual-Polarized Digital Direction Of Arrival Sensors, Riley Nelson Pack Jan 2019

Wideband Dual-Polarized Digital Direction Of Arrival Sensors, Riley Nelson Pack

Electrical Engineering Graduate Theses & Dissertations

This thesis presents the design of wideband, dual-polarized direction of arrival (DOA) antennas intended for use with digital processing backends. It is shown that using a digital receiver for DOA allows for wider bandwidth and improvement of the size, weight, and complexity of the antenna system at the cost of traditional design metrics. All antennas are designed using full-wave finite element simulations and are validated with measurements.

Four-arm modulated arm width (MAW) spiral antennas are analyzed for use as digital DOA sensors for linearly-polarized signals. Counter to traditional design procedures, tightly-wound MAW spirals with a small modulation ratio perform significantly ...


Fast 3d Inhomogeneous Radiative Transfer Model Incorporating Aspherical Frozen Hydrometeors With Application To Precipitation Locking, Kun Zhang Jan 2019

Fast 3d Inhomogeneous Radiative Transfer Model Incorporating Aspherical Frozen Hydrometeors With Application To Precipitation Locking, Kun Zhang

Electrical Engineering Graduate Theses & Dissertations

A horizontally inhomogeneous unified microwave radiative transfer (HI-UMRT) model incorporating aspherical frozen hydrometeors based on the NASA/GSFC OpenSSP database is presented to study 3-dimensional (3D) effects of horizontal inhomogeneous clouds on computed microwave radiances and facilitate satellite radiance assimilation over horizontally inhomogeneous weather conditions. HI-UMRT provides a coupled two-Stokes parameter numerical radiance solution of the 3D radiative transfer equation by embedding the existing 1D UMRT algorithm into an iterative perturbation scheme. The horizontal derivatives in radiances of lower perturbation order are treated as the source functions of the azimuthal harmonic perturbation radiative transfer equations that are readily solved by ...


The Economics Of Orbit Use: Theory, Policy, And Measurement, Akhil Rao Jan 2019

The Economics Of Orbit Use: Theory, Policy, And Measurement, Akhil Rao

Economics Graduate Theses & Dissertations

Earth's orbits are a congestible resource with novel dynamic externalities. In this dissertation my coauthors and I examine the nature of orbit use externalities, study the policy choice space to classify existing policies and identify a class of optimal policies, consider the extent to which technological advancements can mitigate these externalities, and calculate the magnitude and time path of both an optimal satellite tax and the welfare gains from implementing it. Three key results emerge. First, open access to Earth's orbits drive the problems of excess collision risk and debris production. Left to their own devices, profit-maximizing firms ...


Indoor Black And Brown Carbon From Cooking Activities And Outdoor Penetration: Insights From The Homechem Study, Sumit Sankhyan Jan 2019

Indoor Black And Brown Carbon From Cooking Activities And Outdoor Penetration: Insights From The Homechem Study, Sumit Sankhyan

Mechanical Engineering Graduate Theses & Dissertations

Particulate matter emissions from cooking activities are a major contributor to indoor air pollution in households. A major part of these emissions consists of light absorbing aerosols known as black carbon (BC) and brown carbon (BrC). The goal of this work was to characterize the contributions of indoor and outdoor sources of BC and BrC to the indoor environment by measuring real-time concentrations of these components indoors and outdoors concurrently during the month-long HOMEChem field study in June 2018. We quantified the penetration of BC and BrC into the house from outdoor sources and characterized the impacts of cooking activities ...


Direct Numerical Simulations Of The Compressible Low Atwood Rayleigh-Taylor Instability, Scott A. Wieland Jan 2019

Direct Numerical Simulations Of The Compressible Low Atwood Rayleigh-Taylor Instability, Scott A. Wieland

Mechanical Engineering Graduate Theses & Dissertations

Two fluids are considered Rayleigh-Taylor unstable when the more dense fluid is suspended above the less dense fluid in the presence of a gravitational like accelerative force. When a pertur- bation is applied to the interface between the two, they begin mixing as the light fluid rises and the heavy fluid drops. The extension of this to the compressible regime leads to the densities of the fluids to not be constant, but instead the molar mass is used to define the weights. At the interface, a density jump still occurs, but away from the interface the densities can vary in ...


Thermal Conductivity Of Complex Crystals, High Temperature Materials And Two Dimensional Layered Materials, Xin Qian Jan 2019

Thermal Conductivity Of Complex Crystals, High Temperature Materials And Two Dimensional Layered Materials, Xin Qian

Mechanical Engineering Graduate Theses & Dissertations

Thermal conductivity is a critical property for designing novel functional materials for engineering applications. For applications demanding efficient thermal management like power electronics and batteries, thermal conductivity is a key parameter affecting thermal designs, stability and performances of the devices. Thermal conductivity is also the critical material metrics for applications like thermal barrier coatings (TBCs) in gas turbines and thermoelectrics (TE). Therefore, thermal conductivities of various functional materials have been investigated in the past decade, but most of the materials are simple and isotropic crystals at low temperature. This is because the first-principles calculation is limited to simple crystals at ...


Development Of Novel Crispr-Based Methods For Transcriptional Control Over Bacterial Gene Expression, Katia Tarasava Jan 2019

Development Of Novel Crispr-Based Methods For Transcriptional Control Over Bacterial Gene Expression, Katia Tarasava

Materials Science & Engineering Graduate Theses & Dissertations

One of the challenges of the 21st century is creating a sustainable economy that is able to serve the needs of a growing population with the decreasing supply of natural resources. In addition to alternative energy sources, renewable economy concerns production of materials and chemicals. The chemical and polymer industries rely heavily on petroleum for manufacturing consumer goods. Many of these chemicals can be produced from renewable resources using microorganisms. However, the amounts produced are often not enough to make the process commercially viable. By rewiring cellular metabolism and regulation, it is possible to redirect metabolic flux to increase the ...


The Cora Lake Shear Zone: A Natural Laboratory In The Continental Lower Crust, Omero Felipe Orlandini Jan 2019

The Cora Lake Shear Zone: A Natural Laboratory In The Continental Lower Crust, Omero Felipe Orlandini

Geological Sciences Graduate Theses & Dissertations

Preserved lower-crustal terranes provide a view into deep earth processes unparalleled in spatial and temporal resolution. We use this rich data set of field observations and microstructural samples to document long-term strain localization in the dry lower crustal root of a continental strike-slip fault system, model the passive seismic properties its deformation, and create a novel method of interpolating missing orientation data using neural networks.

The Cora Lake shear zone is a 4-6 kilometer wide and >90 km long zone of mylonite and ultramylonite which hosts frictional melt (pseudotachylyte) veins with various intensities of ductile fabric overprint. High-resolution electron microprobe ...


Foodlocker: An Online Marketplace For Automated Meals, Josiah Buxton Jan 2019

Foodlocker: An Online Marketplace For Automated Meals, Josiah Buxton

Computer Science Graduate Theses & Dissertations

Food waste is a major problem for the human race, particularly in "rich" industrial countries.

We propose a creative, partial solution to this problem through the development of an online marketplace for left-over food and a physical infrastructure to secure the food throughout each transaction.

The software platform will consist of three separate portions: a mobile food consumer application, a mobile food provider application, and a web food provider application. Restaurants and other licensed food distributors can utilize the food provider applications to broadcast available left-over meals, which can be purchased at a discounted price. The hardware infrastructure will be ...


Photoinduced Hole Transfer And Recombination Dynamics Of A Cds Quantum Dot Sensitized Mononuclear Water Oxidation Catalyst, Orion Magruder Pearce Jan 2019

Photoinduced Hole Transfer And Recombination Dynamics Of A Cds Quantum Dot Sensitized Mononuclear Water Oxidation Catalyst, Orion Magruder Pearce

Chemistry & Biochemistry Graduate Theses & Dissertations (1986-2018)

Artificial photosynthesis represents a promising strategy to capture and store solar energy through the production of carbon neutral fuels. This process begins with absorption of a photon by a semiconductor creating an electron-hole pair which are then separated and used to drive reduction and oxidation reactions. CdS nanostructures are model light absorbers for studying these charge transfer reactions and have already demonstrated photoinduced electron transfer to drive a variety of reactions. However, there has been comparatively little progress in understanding how CdS nanostructures may be used to sensitize oxidation reactions such as water oxidation. To this end, we undertook a ...


Direct Optically Driven Spin-Charge Dynamics Govern The Femtosecond Response Of Ferromagnets, Phoebe Marie Tengdin Jan 2019

Direct Optically Driven Spin-Charge Dynamics Govern The Femtosecond Response Of Ferromagnets, Phoebe Marie Tengdin

Electrical Engineering Graduate Theses & Dissertations

Ferromagnetic materials have strong electron correlations that drive quantum effects and make the physics that describes them extremely challenging. In particular, the electron, spin, and lattice degrees of freedom can interact in surprising ways when driven out of equilibrium by ultrafast laser excitation. In this thesis I uncover several previously unexpected connections between the electronic and spin systems in ferromagnets. Dynamics occur at unexpectedly fast timescales, driven using femtosecond laser excitation pulses. The tools that I use to observe the exceeding fast (10s of femtosecond) dynamics are bursts of extreme ultraviolet light resonant with the M-edge of transition metals and ...


Wideband Bi-Static And Monostatic Star Antenna Systems, Prathap Valale Prasannakumar Jan 2019

Wideband Bi-Static And Monostatic Star Antenna Systems, Prathap Valale Prasannakumar

Electrical Engineering Graduate Theses & Dissertations

The thesis presents the design, and development of novel wideband Simultaneous Transmit And Receive (STAR) antenna systems. A STAR or in-band full-duplex system has the potential to double the throughput of a communication channel, which is highly important for the next-generation wireless networks. Similarly, these systems could increase the effectiveness of Electronic Warfare (EW) and Support (S) operation, by facilitating spectrum/channel sensing while jamming. A self-interference (SI) phenomenon, where the transmitter disrupts its own receiver is a major challenge in the practical realization of any radio frequency (RF) system. High isolation (>130 dB) is often needed to overcome this ...