Physical Sciences and Mathematics Commons^™

Electron Yield Of A Carbon Fiber Composite, Matthew Robertson

Utah Space Grant Consortium

As electron yield models continue to evolve and improve, a study of carbon fiber materials was conducted to try and understand more complex nanoscale structures and their influence on electron yield.

Using Geologic And Geodetic Analyses To Define The Location, Slip Rate, And Geometry Of Off Fault Deformation, Hidden Spring Fault Zone, Southern California, Rebekah Riemann, Andrea Donnellan, Jay Parker

Utah Space Grant Consortium

A strain deficit of about 10 mm/yr exists across the San Andreas Fault system on the boundary between the North American and Pacific plates. We investigate the role of the Hidden Spring Fault Zone, east of the Salton Sea in Southern California, and related structures in accommodating some of this slip. We compile data from historic and current aerial and satellite imagery, coupled with UAVSAR and LiDAR data have allowed us to identify and map hundreds of new fault segments in the region. Where possible, we correlate some of these data with geologic evidence for the faults. These data emphasize …

Applying The Optimal Estimation Method For Retrieving Rayleigh-Scatter Lidar Temperatures In The Mesosphere, Jonathan Price, Robert Sica, Ali Jalali

Utah Space Grant Consortium

The Rayleigh-scatter lidar (RSL) system at the Atmospheric Lidar Observatory at Utah State University (ALO-USU) provided a rich database of absolute temperatures throughout the mesosphere from 45 km to above 90 km between 1993 and 2004. Recently, a new method for retrieving absolute temperatures from RSL observations has been developed by a group at the University of Western Ontario (UWO), Canada. The Optimal Estimation Method (OEM) uses machine learning to minimize a cost function by optimizing the temperature parameter in a forward model, in our case the lidar equation, to RSL data. This optimization provides some benefits over the existing …

Extreme Ultraviolet Application Of Carbon Nanotube Structures, Scott Olsen, Richard Vanfleet, David Allred, Steve Turley

Utah Space Grant Consortium

Windows for extreme ultraviolet (EUV) sources are challenging because of the lack of transparent materials in these wavelengths. Thus, differential pumping apertures and slits are standard. Our group has developed a carbon nanotube (CNT) window consisting of a dense array of square holes. The open area allows a large range of wavelengths to be transmitted, and the high density of holes restricts gas flow, allowing a large pressure difference with differential pumping. The versatility of CNTs allows us to select the peak transmission and pressure ratio (low/high). We have observed pressure ratios of 0.000924, 0.000667, 0.000494, and 0.00118 for air …

Growing Food In Space: A Comparison Of Led And Solar-Fiber-Optic Technologies, Paul Kusuma, J. Matthew Hardy

Utah Space Grant Consortium

Growing food on Mars for long-term space exploration has many benefits including reduced fuel and cost requirements for lift-off, improved nutrition and psychological benefits for astronauts, air purification, and oxygen and water regeneration. However, complications are caused by the thin atmosphere on Mars, which would force production underground or into a heavily armored shelter. Providing the massive number of photons necessary to grow food is expensive and careful consideration must be made regarding the most promising technologies. The two most promising options are a combination of either concentrating mirrors coupled to solar-fiber-optics (SFO), or photovoltaics (PV) coupled to light-emitting diodes …

Byu Rocketry, Joseph Andrews, Bradley Buttars, Mark Johnson, Zachary Lawless, Jodi Pham, Harris Rothaermel, Mark Sweeney

Utah Space Grant Consortium

BYU Rocketry competed in the 2019 Intercollegiate Rocket Engineering Competition at the 3^rd Annual Spaceport America Cup in Las Cruces, NM by building an 8-foot High Power rocket to send an 8.8 lb. CubeSat payload 10,000 ft. above ground level. Over 100 collegiate teams from around the world will competed.

Applying Real-World Learning Through Amusement Parks To Help Teach The Upcoming Changes To Utah Core Standard, Phil Lundgreen, Amanda Otterstrom

Utah Space Grant Consortium

To assist educators in satisfying the Science with Engineering Education (SEEd) Standards the Utah State University (USU) Physics Department has developed a curriculum centered around USU Physics Day at Lagoon.

With an upcoming change to Utah's core standards and a shift to more hands-on learning styles, the use of real-world learning offered by amusement park applications is analyzed in its ability to satisfy the Utah State Bureau of Education’s (USBE) SEEd standards. Amusement park learning allows educators a vehicle to capture students’ attention in the classroom by discussing science principles in a fun and exciting manner with a promise of …

Great Salt Lake Halophilic Archaea As A Model For Possible Extant Life On Mars, Alex J. Breda, Michael J. Regan Jr.

Utah Space Grant Consortium

Expansive evaporite mineral deposits and other geological features on Mars are evidence of ancient lacustrine systems before the planet experienced global climatic change (~3.5 Ga). On Mars, as the surface water dried up, hypersaline lakes would have filled the ancient lake basins. On Earth, the Bonneville Basin, in the western United States, tells a similar story in a more recent timeframe. Today, the bottom of this basin is the modern Great Salt Lake (GSL) and the Bonneville Salt Flats. Evaporation of this freshwater lake left large evaporitic mineral deposits that continually supply salt to modern GSL. Parts of the lake …

What In Tarnation? Monitoring Animal Entrapments At The Rozel Tar Seeps, Mary Sanchez, Cayla Martin, Jaimi Butler, David Kimberly, Foad Yousef

Utah Space Grant Consortium

The Great Salt Lake (GSL) is one of the largest migratory stops for many species of birds in North America. At Rozel Point, along the banks of the Great Salt Lake, there are tar seeps where some species of birds have gotten entrapped and died. These petroleum seeps are both naturally occurring and human created. The temperature that the seeps become sticky, the possibility of prey animals drawing predators in, and the appearance of the tar seeps are all important aspects of why birds are drawn to these seeps. Using motion sensor cameras and temperature monitoring devices, the animals that …

Leveraging Commercial Nuclear Reactors To Power Space Exploration, Ben Johnson

Utah Space Grant Consortium

This study is aimed at exploring the adaptation of commercial nuclear reactors as an alternative to NASA’s current high-power fission reactor systems, particularly with respect to applications on the surface of Mars. The study concludes that while the Kilopower architecture is brilliantly poised to provide affordable, near-term power in the 1-10 kilowatts electric (kWe) range, the financial barrier to higher power scaling of such systems is significant. This financial barrier adds risk to the development of greater than 10kWe systems and is likely to result in the failure to successfully scale the technology to higher powers for space exploration applications. …

Internal Waves Generated From Asymmetric Topographies, Kyle Hakes

Utah Space Grant Consortium

Internal waves are a key part of the energy budget of the ocean and atmosphere. The generation of internal waves in the ocean from tides is dependent on the frequency of oscillation, the profile of the underwater mountain range, and the density of water in the surrounding ocean. A study of the effect of an asymmetric mountain range, with varying pro-files, on the generation of internal waves is presented. Results begin to indicate that the wave is mostly similar when generated on either side of the topography, but might extend to higher wavenumbers in Fourier space when generated on the …

Links Between Eruptive Styles, Magmatic Evolution, And Morphology Of Shield Volcanoes: Snake River Plain, Idaho, Katelyn J. Barton, Michelle Hurst

Utah Space Grant Consortium

Despite their similar ages and geographic locations, two low-shield volcanoes on the eastern Snake River Plain, Idaho, Kimama Butte (87 ka) and Rocky Butte (95 ka), have strikingly different profiles. In this study, these two volcanoes are examined to determine the connections between chemical composition, intensive parameters, eruption style, and topographic features of basaltic shield volcanoes. Because lava temperature, magma viscosity, and chemical composition overlap at the two volcanoes, they are probably not important controls on the differences in morphology. The main difference at the two shields, aside from general vent morphology, is the presence of late-stage, phenocryst-rich, high viscosity …

Resistivity Of Nickel Silicide Thin Films, Rylan Woods

Utah Space Grant Consortium

The characterization of resistivity within thin films is paramount for proper integration into modern electronics wherein they show promise as contact materials due to their low contact resistance and high conductivity. Nickel silicide compounds often form in microelectronics at intersections between nickel and silicon, traditionally forming as a variety of intermetallic compounds including NiSi, Ni₂Si, Ni₃Si, Ni₃Si₂, and NiSi₂. Within this study, nickel silicide thin films ranging in thickness from 25nm to 110nm were synthesized on a silicon wafer substrate utilizing vapor deposition at a temperature of 900°C in low …

Implementing Theta-2-Theta Measurements To Measure Mirror Reflectance, Kylie Wolfe

Utah Space Grant Consortium

Our research group studies multilayer mirrors for use in space-based telescopes. The mirror property we are most interested in optimizing is reflectance. In the past, measuring the reflectance of our sample mirrors was difficult, as we either had to travel to the Advanced Light Source in Berkeley, California or we had to conduct and combine the data from many single-axis scans by hand. This made measuring reflectance tedious, error-prone, and time-consuming. By adding an automated theta-2-theta scan to our system, I removed these issues, allowing us to study our mirrors much more efficiently.

A Miniaturized Multi Sensor Array For Balloon-Borne Air Measurements, Phase Ii, Drew Huber, Huiling (Renee) Xie, John E. Sohl, Jeffrey D. Page

Utah Space Grant Consortium

Weber State University’s High-Altitude Ballooning team, HARBOR, is developing a lightweight, flexible, expandable sensor array for both high-altitude balloon flight and low-altitude drone flight.

The system will have the following capabilities:

1.Gas sensor and air quality board/chamber:

a. Gases: CO, CO₂, NO₂, NH₃, SO₂, O₃, VOCs

b. Particulates: PM1, PM2.5, PM10.

2. Metrological data measurement suite:

a.Temperature, pressure (with two sensors), %RH.

b. Wind by proxy for balloon flights via the GPS.

3. Flight dynamics and geolocation suite:

a. High altitude GPS

b. 9-axis inertial measurement: acceleration, gyroscope, and magnetometer. …

Mineralogy Of Great Salt Lake: An Analogue For Martian Evaporites, Calli B. Cahill, Adrik Z. Da Silva

Utah Space Grant Consortium

Gypsum (CaSO₄ · 2H₂O) and mirabilite (Na₂SO₄ · 10H₂O) are common precipitates at the Great Salt Lake (GSL). NASA’s Mars Exploration Rover, Opportunity, found veins of gypsum deposited by water in 2011 and gypsum has been detected on Mars as early as 2005 by the ESA’s Mars Express Orbiter. On Earth, gypsum is formed in hypersaline environments, in minerals left behind when water evaporates, trapping microorganisms in fluid inclusions. Likewise, GSL mirabilite develops when mineral-rich groundwater meets cold winter air to create crystalline structures. While there is no physical evidence of mirabilite …

Lunar Mining: Designing A Robust Robotic Mining System, Ted Goodell, James Ehlers, Rian Simpson, Tina Hayward, Ali Almiskeen, Logan Peterson, Joshua Miraglia, Alexander Charters, Palmer Clegg, Chandler Millar, Emerson Labon, Jonathan Warner, Matthew Cohen, Evan Cleveland, Jackson Dean, Todd Renner, Sergio Nunez, Pramit Chalise, Arthur Steur, Jake Erickson, Kenny Ho

Utah Space Grant Consortium

The annual NASA Robotic Mining Challenge: Lunabotics tasks teams with building robots capable of traversing and mining simulated Lunar terrain. The competition goal is to utilize automation and sensing alongside mechanical systems to harvest icy regolith (gravel) from beneath the satellite’s surface.

This year, Utah Student Robotics sought to improve upon the design from last year. The 2019-2020 rover is based on proven NASA concepts, such as the RASSOR 2.0 digging drum, and the Rocker-Bogie mobility platform.