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Researcher
- Kevin M Roccapriore
- Sergei V Kalinin
- Maxim A Ziatdinov
- Olga S Ovchinnikova
- Rama K Vasudevan
- Yongtao Liu
- Benjamin T Manard
- Cyril V Thompson
- Andrew R Lupini
- Andrzej Nycz
- Anisur Rahman
- Anton V Ievlev
- Arpan Biswas
- Brandon A Wilson
- Christopher M Rouleau
- Dave D Willis
- Debangshu Mukherjee
- Gerd J Duscher
- Harold A Walters
- Hong Wang
- Kyle P Kelley
- Mahshid Ahmadi
- Mary K Danielson
- Md Inzamam Ul Haque
- N Dianne B Ezell
- Nicholas E Gregorich
- Ondrej E Dyck
- Robert L Sacci
- Sai Mani Prudhvi Valleti
- Samuel C Leach
- Som S Shrestha
- Stephen Jesse
- Syed Z Islam
- Udaya C Kalluri
- Utkarsh Pratiush
- Vincent C Paquit
- Xiaohan Yang
- Zhenglai Shen
Information Notice
CAN-D: Controller Area Network Decoder (UT-B ID 202004299) and Universally Applicable Signal-Based Controller Area Network (CAN) Intrusion Detection System (UT-B ID 202004640)
This technology offers automated imaging and taxonomic classification (via machine learning) of invertebrates, which has previously not been conducted
Novel explicit finite element analysis algorithms for transient thermal stress problems.
Neutron diffraction can be used to measure strain, stress, and temperature in ordered materials based on shifts in their diffraction peaks, and conventional in-situ measurements of these properties for internal combustion engines are either sparsely available or non-existent.
This invention provides a microfluidic technique for measuring the zeta potential of surfaces by performing pressure measurements in flow.
This invention describes a test fixture that enables brittle material (e.g., glass, ceramic, ceramic composite, graphite) cylinders and tubes to have their flexural strength measured or be proof tested while being rotated.
The invention provides a system and method for determining linear density of carbon fiber.
The invention provides a system and method for determining parameters of a tow. The system is configured to measure the profile of tows, such as tow width, thickness, and identification and quantification of tow fuzz.
Here we introduce a new approach to expand the utility of vibrational sum-frequency generation spectroscopy using a pulse method. We demonstrate that pulse can be specified to match experimental requirements without the need for any changes to the optical alignment.
In this invention, we claim a device and approach to sculpt matter down to nanometer and atomic level and create nanometer-scale crystalline structures using the combination of the beam modification, custom beam control, and real time-feedback based on rapid identification of