, assistant professor in physics and astronomy in 亚洲AV鈥檚 College of Science, received the prestigious Early Career Development (CAREER) Program grant from the National Science Foundation (NSF) to continue her research on the complex quantum phases in graphene materials.
In 2023, Ghahari was the first faculty member at George Mason to receive the competitive听 to advance quantum technologies, and now she is the first to receive CAREER awards from both the DOE and NSF.
Ghahari鈥檚 study 鈥淭opological order and edge states in fractional quantum Hall systems鈥 will focus on the complex quantum phases in graphene materials, which could be utilized in the听development of future quantum technologies. For this project, Ghahari will investigate a specific topological phase of matter known as the fractional quantum Hall effect, which she first discovered in graphene in 2009. This phenomenon that appears in two-dimensional electron systems under high magnetic fields and ultra-low temperatures can support new particles that serve as the building blocks for topological quantum computers.听
鈥淏y looking at how the charges flow and the heat they carry in response to a temperature gradient, we can measure entropy, or the degree of randomness, which can reveal the topological properties of these new particles and if they can be used in future topological quantum computers,鈥 she explained.听
Topological quantum computers allow for complex calculations out of reach of standard computing schemes. Quantum bits (qubits), which are used in conventional quantum computing, are more susceptible to errors due to environmental noise and other factors. Topological qubits, however, are prone to these types of errors.听
鈥淪tudying these specific phases may also provide valuable insights into one of the long-standing problems in cosmology known as the 鈥渂lackhole paradox鈥 that addresses the loss of information in blackholes,鈥 Ghahari said.
鈥淕hahari鈥檚 research and programmatic efforts continue to receive well-deserved attention,鈥 said Department of Physics and Astronomy Chair听. 鈥淥ur quantum computing and materials academic offerings and research support continue to grow, thanks to such innovative research, outreach, and partnerships,鈥 Barreto said.听
Students working on Ghahari鈥檚 research team will create tiny graphene heterostructures on George Mason鈥檚 Fairfax Campus, and subsequently use nanofabrication equipment at a nearby project collaborator, the National Institute for Standards and Technology (NIST), to integrate the quantum nanodevices. Finally, they will use a low temperature cryostat located at Ghahari鈥檚 lab at George Mason to measure these devices at extremely low temperatures and high magnetic fields.听
As part of this award, Ghahari will design an education plan to educate George Mason community on quantum nanoscience research by leveraging her unique expertise and established collaborations, which can enhance and expand the existing infrastructure. 听This plan also includes promoting outreach and educational opportunities for students and underrepresented groups by offering seminars and additional quantum courses. She seeks to introduce quantum concepts to high school students to foster awareness and cultivate interest at an earlier age. According to Ghahari, mentorship plays an essential role in a student鈥檚 academic experience.听
鈥淢entoring is crucial,鈥 Ghahari said. 鈥淎s a student, I often sought inspiration. Now, I strive to share my passion and interest in the subject as I work with students.鈥
With the NSF support, Ghahari鈥檚 study will receive $564,695 over the course of five years.听
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