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Technology3h 14m ago

A team from Florida State University used PSC’s NSF-funded Bridges-2 supercomputer to explore how a type of matter on a triangular moiré superlattice behaves.

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Florida

Who
Aman Kumar, Hitesh Changlani, Cyprian Lewandowski, Florida State University, National High Magnetic Field Laboratory (Maglab), PSC
What
A team from Florida State University used PSC’s NSF-funded Bridges-2 supercomputer to explore how a type of matter on a triangular moiré superlattice behaves.
When
Fri, 12 Jun 2026 20:26:22 GMT · 3h 14m ago
Where
Florida ·
Why
To design the next generation of smaller, more powerful electronic devices, scientists will need to understand better how materials act at the smallest scales.
The Frontline Impact

How this affects you

This research provides a new tool for materials engineers to design electronic devices by offering a better understanding of how moiré superlattices behave and how their electronic properties can be finely tuned. This enhanced understanding could lead to more efficient and powerful electronic components.

Story chain

6 events in this thread
  1. Technology3h 14m ago
    A team from Florida State University used PSC’s NSF-funded Bridges-2 to explore how a type of matter on a triangular moiré superlattice behaves.
    Open article
  2. Technology3h 14m ago
    A team from Florida State University used PSC’s NSF-funded Bridges-2 to explore how a type of matter on a triangular moiré superlattice behaves, supplying a new tool for materials engineers to use in designing devices.
    Open article
  3. Currently Reading3h 14m ago
    A team from Florida State University used PSC’s NSF-funded Bridges-2 supercomputer to explore how a type of matter on a triangular moiré superlattice behaves.
  4. Technology3h 14m ago
    Scientists have used PSC’s NSF-funded Bridges-2 supercomputer to explore how a type of matter on a triangular moiré superlattice behaves, supplying a new tool for materials engineers to use in designing devices.
    Open article
  5. Technology3h 14m ago
    A team from Florida State University used PSC’s NSF-funded Bridges-2 supercomputer to explore how a type of matter on a triangular moiré superlattice behaves.
    Open article
  6. Technology3h 14m ago
    Scientists used PSC's NSF-funded Bridges-2 supercomputer to explore how a type of matter on a triangular moiré superlattice behaves, supplying a new tool for materials engineers.
    Open article

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