Quantum Computing News

2026 Cottrell Scholars Award

Subhasish Mandal, an assistant professor within the Department of Physics and Astronomy at West Virginia University (WVU), has been named a recipient of the prestigious 2026 Cottrell Scholars Award. This honor recognizes his groundbreaking studies into materials that hold the potential to revolutionize the development of quantum computers, a field that represents the next frontier of computational power.

A Select Group of Early-Career Leaders

Mandal is one of 24 early-career scholars from the US and Canada recognized by the Research Corporation for Science Advancement this year. Outstanding chemistry, physics, and astronomy teacher-scholars who succeed in research and education get the award.

Cottrell Scholars earn $120,000 to advance their academic and scientific careers along with this professional recognition. Mandal was extremely appreciative of the RCSA’s acknowledgment, saying it will help him in his efforts to find and create materials that can support the sensitive quantum states needed for extremely powerful, error-free quantum computing.

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The Science of Tuning Quantum Matter

In Mandal’s work, “tuning quantum matter and phases through strong electronic interaction” is the main focus. His study entails creating an advanced computational framework for predicting quantum phases in “heterostructures” and unconventional materials. Strong electron interactions in these heterostructures often lead to high-temperature superconductivity.

The technical nature of these ideas is not explicitly stated thus you may want to verify their broader scientific definitions Physics defines “strong electronic interaction” as systems with complicated collective characteristics caused by electrons not being separate particles. To develop unique electrical properties at their interfaces, “heterostructures” layer materials.

Claim that one of the biggest obstacles facing quantum computing today is the instability of quantum states. Mandal’s work focuses on materials that have the potential to maintain these states in the face of ambient noise, which usually leads to the collapse of quantum states. To forecast novel materials and phases for highly coupled quantum systems without the requirement for tuning parameters, Mandal’s research team uses high-performance computing to directly solve quantum mechanical equations.

Although forecasting materials by solving these equations has been a common practice for the past ten years, Mandal clarified that it is still very difficult to do so for strongly linked quantum materials without the use of adjustable factors. To get beyond this obstacle, he uses high-performance computers.

Expediting Real-World Outcomes

Although the majority of quantum computing is still theoretical at this time, Mandal’s work aims to accelerate practical results. Through his study, the industry is getting closer to developing error-free, functional quantum processors by identifying materials that can reliably hold quantum information.

The significance of Mandal’s award goes beyond the lab. The Cottrell Award emphasizes research-teaching synergy. Mandal will increase high school and undergraduate quantum scientific instruction with the financing.

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Bridging the Gap for Underserved Communities

This education program targets rural and underserved kids. Among the many activities Mandal plans to provide to keep these students interested are:

• Modules for online education that can reach students in far-flung places.
• Interactive seminars that offer hands-on experience with contemporary physics.
• Undergraduate research chances to engage in innovative scientific discoveries.

The department’s chair and Eberly Distinguished Professor of Physics and Astronomy, Maura McLaughlin, praised Mandal’s contributions to the university. He is one of the “brightest stars” in the department, she said, referring to his innovative research and his outstanding undergraduate and graduate teaching.

Fulfilling the Land-Grant Mission

McLaughlin says Mandal’s outreach initiative is a great illustration of WVU’s land-grant purpose. The university’s duty to serve the public interest by providing underprivileged students across the state with cutting-edge scientific knowledge is emphasized by this mission.

Mandal is pushing quantum physics, but this award also ensures that the community benefits from that knowledge and is inspired to follow scientific careers. He works to solve some of the most difficult physics problems while creating an inclusive atmosphere for future scientists.

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