UROP Research Mentor Project Submission Portal: Submission #1277

Submission information
Submission Number: 1277
Submission ID: 20981
Submission UUID: 8e815082-b6e6-49d5-98c3-435747c9706d

Created: Mon, 08/18/2025 - 07:31 PM
Completed: Mon, 08/18/2025 - 08:30 PM
Changed: Wed, 09/03/2025 - 12:39 AM

Remote IP address: 144.174.212.42
Submitted by: Anonymous
Language: English

Is draft: No
Primary Research Mentor Name Kavipriya Thangavel
Research Mentor Preferred Pronouns Kavi
When potential research assistants are reaching out via email, what is your preferred honorific?
Contact Email (FSU Email if affiliated) kt24@fsu.edu
Position Title Post Doc
FSU College (if applicable) N/A
FSU Department or Non-FSU Organization Affiliation National High Magnetic Field Laboratory
Headshot (optional) P1170215 - Copy.JPG
Research Assistant Supervisor (if different from above)
Research Assistant Supervisor Preferred Pronouns
Research Assistant Supervisor Preferred Honorific?
Contact Email (FSU Email if affiliated)
Name of Other Faculty/Collaborator(s) (if applicable)
Other Faculty/Collaborator(s) Preferred Pronouns
Other Faculty/Collaborator(s) Preferred Honorific?
Contact Email (FSU Email if affiliated)
Title of the Project Exploring Qubit Dynamics via Electron Paramagnetic Resonance Spectroscopy
Project Keywords Qubit, EPR, Spin, Relaxation, Quantum
Are you currently looking for research assistants? Yes
Number of Research Assistants Needed 1
Relevant Research Assistant Major(s) Students from any science major are welcome.
Project Location: National High Magnetic Field Laboratory
If the project location is off campus, does the research assistant(s) need to provide their own transportation? Yes
Please select the choice that most accurately describes your expectations for the research assistant(s): Partially Remote
Approximately how many hours a week would the research assistant(s) need to work? 5-10 hour
Roughly what time frame do you expect research assistant(s) to work? During business hours
Overall Research Project Description Electron Paramagnetic Resonance (EPR) spectroscopy is a powerful method for studying materials with unpaired electrons, including qubit materials. A qubit (short for “quantum bit”) is the basic unit of quantum information and the building block of quantum computers. Unlike a regular computer bit, which can only be 0 or 1, a qubit can exist in a mixture of both states at the same time, thanks to quantum mechanics.
The lifetime of a qubit tells us how long it can remain in this fragile quantum state before losing information. EPR helps scientists measure this lifetime (also called the spin–spin relaxation time) and understand the properties of qubits.
At the National MagLab, researchers use a state-of-the-art instrument called HiPER (High-Power Quasi-Optical W-band spectrometer). HiPER enables both continuous-wave and pulsed experiments, which provide much more detailed information about spin systems than traditional low-power EPR machines. This deeper understanding helps in developing better qubit materials, advancing the future of quantum information and computation.
Research Tasks In this project, students will be introduced to the basics of qubit systems and get hands-on experience using high-field EPR and the HiPER instrument. The main goal is to learn how spin systems relax and how we can study that. Students will also practice doing literature reviews and giving short presentations to share what they have learned. The project includes several types of tasks, and assignments will be tailored to the student’s interests and motivation.
Skills that research assistant(s) may need: Students with backgrounds in Physics, Chemistry, Materials Science, or Quantum Science are encouraged to apply, but not mandatory. During the project, students will receive training in various aspects of experimental and data analysis work. Skills in Excel or MATLAB are desirable, but not required, as training will be provided. The project includes several types of tasks, and assignments will be tailored to the student’s interests and motivation.
Mentoring Philosophy Mentoring is a reciprocal process of knowledge sharing and growth. Through this project, students will gain valuable exposure to qubit system investigations in the field of EPR, working hands-on with advanced techniques such as high-field and pulsed spectroscopy. Alongside developing technical expertise, students will also strengthen their analytical thinking and problem-solving skills. I believe mentoring is not just about guiding students but also about empowering them to explore, question, and contribute to cutting-edge research.
Please provide a link to your publications, a video clip, or a website for your research project (if applicable): https://www.youtube.com/watch?v=7tO1RCnd8hM
Please add any additional information here (if applicable): 1. https://www.bruker.com/en/resources/library/application-notes-mr/electron-paramagnetic-resonance-for-quantum-information-science.html
2. https://www.ibm.com/think/topics/quantum-computing
If you have any questions, please feel free to contact me via E-mail: kt24@fsu.edu
Are you interested in participating in the UROP Research Mentor Roundtable? Yes
Roundtable times and Zoom links https://fsu.zoom.us/j/91066858864
Roundtable Info
  • Day: Tuesday, September 2
    Start Time: 12:00
    End Time: 12:30
    Zoom Link: https://fsu.zoom.us/j/91066858864
  • Day: Tuesday, September 2
    Start Time: 7:00
    End Time: 7:30
    Zoom Link: https://fsu.zoom.us/j/91066858864
  • Day: Wednesday, September 3
    Start Time: 7:00
    End Time: 7:30
    Zoom Link: https://fsu.zoom.us/j/91066858864
Mentor Handbook, FAQs, and Communication Yes
UROP Performance Evaluation Yes
Materials Grant Yes
UROP Poster Presentation Yes
Year 2025
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