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Low-Energy Atomic Processes Including Ones Involving a Positron

Description: Data management plan for the grant, "Low-Energy Atomic Processes Including Ones Involving a Positron." The proposed research in theoretical atomic physics involves few-body systems of charged particles, especially ones that involve the antiparticle of the electron, which is a positron. One of these systems is the positronium negative ion, which is comprised of two electrons and a positron. The exotic positronium atom is similar to the conventional hydrogen atom, but the positive charge in the a… more
Date: 2022-09-01/2025-08-31
Creator: Quintanilla, Sandra J.
Partner: UNT College of Science
open access

Common Threads in Research Across Disciplines: A Reflection

Description: Keynote address for the 2004 University Scholars Day delivered by Dr. Samuel Matteson. This keynote speaker discusses common threads of thought and practice that run through what is called "research."
Date: April 15, 2004
Creator: Matteson, Samuel E.
Partner: UNT Honors College
open access

Encapsulated perovskite in NiO nanotube for topological meta-photonic devices

Description: Data management plan for the grant, "Encapsulated perovskite in NiO nanotube for topological meta-photonic devices." Research studying meta-photonic devices with high absorption and topological photonic devices using encapsulated perovskites in NiO nanotubes. The goal is to achieve high-efficiency solar cells and electrically pumped laser in perovskite/NiO nanotubes patterned in the graded photonic super-crystal. The success of this project will lead to high-efficiency integrated lasers and sol… more
Date: 2021-09-01/2024-08-31
Creator: Cui, Jingbiao & Lin, Yuankun
Partner: UNT College of Science
open access

Collaborative Research: A Systematic and Comprehensive Study of Black Hole-Driven Turbulence in Massive Galactic Systems

Description: Data management plan for the grant, "Collaborative Research: A Systematic and Comprehensive Study of Black Hole-Driven Turbulence in Massive Galactic Systems." This research team has developed a technique to measure gas turbulence in systems hosting giant central black holes and will directly evaluate the viability of this mechanism using a large sample of galaxies. This project will deliver a more complete view of the “feedback” provided by accreting SMBHs, leading to a better understanding of… more
Date: 2021-09-01/2024-08-31
Creator: Li, Yuan
Partner: UNT College of Science
open access

Building a Team for EXtragalactic AStrophysics (TEXAS) in the Dallas-Fort Worth Metroplex

Description: Data management plan for the grant, "Building a Team for EXtragalactic AStrophysics (TEXAS) in the Dallas-Fort Worth Metroplex". The project will build a new partnership between the University of North Texas (UNT), an R1 Minority-Serving Institution (MSI)/ Hispanic-Serving Institution (HSI), and the University of Texas at Dallas (UTD). During the pilot phase, the team will establish a post-baccalaureate bridge program and organize monthly colloquia and annual symposia to broaden the participati… more
Date: 2022-09-01/2024-08-31
Creator: Li, Yuan
Partner: UNT College of Science
open access

Connecting Galaxies and Supermassive Black Holes: Meso-scale Simulations of Multiphase Accretion Flows

Description: Data management plan for the grant, "Connecting Galaxies and Supermassive Black Holes: Meso-scale Simulations of Multiphase Accretion Flows." It proposes to study how gas flows onto the supermassive black holes in massive galaxies and galaxy clusters. They will perform numerical simulations with a nested zoom-in technique, focusing on the mesoscale accretion flows from the Bondi radius to hundreds of Schwarzschild radii. They will predict the mass flux of different phases, as well as their angu… more
Date: 2022-07-01/2025-06-30
Creator: Li, Yuan
Partner: UNT College of Science
open access

Exploring thermal properties of nanoscale wide bandgap semiconductors via ultrafast thermal-emission spectroscopy

Description: Data management plan for the grant, "Exploring thermal properties of nanoscale wide bandgap semiconductors via ultrafast thermal-emission spectroscopy." In this project, we aim to develop a new thermometrology technique based on ultrafast thermal emission to directly and accurately measure thermal properties of thin-film wide bandgap semiconductors.
Date: 2023-09-30/2025-09-29
Creator: Xiao, Yuzhe
Partner: UNT College of Science
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