Peter Schauß

University of Virginia

H-index: 23

North America-United States

About Peter Schauß

Peter Schauß, With an exceptional h-index of 23 and a recent h-index of 22 (since 2020), a distinguished researcher at University of Virginia, specializes in the field of Physics, Quantum Optics, Ultracold Quantum Gases, Quantum Many-Body Quantum Systems, Rydberg Atoms.

His recent articles reflect a diverse array of research interests and contributions to the field:

Spin-resolved quantum gas microscopy of fermionic Mott insulators

Quantum gas microscopy of triangular-lattice Mott insulators

Construction of a cryogenic ytterbium tweezer platform for quantum computing

Quantum simulation with ultracold atoms

Quantum gas microscopy of fermionic triangular-lattice Mott insulators

Quantum gas microscopy of a geometrically frustrated Hubbard system

Site-resolved observables in the doped spin-imbalanced triangular Hubbard model

A hybrid Zeeman slower for lithium

Peter Schauß Information

University	University of Virginia
Position	___
Citations(all)	7980
Citations(since 2020)	4010
Cited By	5843
hIndex(all)	23
hIndex(since 2020)	22
i10Index(all)	27
i10Index(since 2020)	24
Email	Access Email
University Profile Page	University of Virginia
Google Scholar	View Google Scholar Profile

Peter Schauß Skills & Research Interests

Physics

Quantum Optics

Ultracold Quantum Gases

Quantum Many-Body Quantum Systems

Rydberg Atoms

Peter Schauß

University of Virginia

About Peter Schauß

Peter Schauß Information

Peter Schauß Skills & Research Interests

Top articles of Peter Schauß

Spin-resolved quantum gas microscopy of fermionic Mott insulators

Jin Yang

Quantum gas microscopy of triangular-lattice Mott insulators

Jin Yang

Construction of a cryogenic ytterbium tweezer platform for quantum computing

Christian Brandt

Jin Yang

Quantum simulation with ultracold atoms

Quantum gas microscopy of fermionic triangular-lattice Mott insulators

Jin Yang

Quantum gas microscopy of a geometrically frustrated Hubbard system

Jin Yang

Site-resolved observables in the doped spin-imbalanced triangular Hubbard model

Jin Yang

A hybrid Zeeman slower for lithium

Jin Yang

Spatial correlations in fermionic triangular lattice Hubbard systems

Jin Yang

Site-resolved imaging of Mott Insulators in a novel triangular optical lattice geometry

Jin Yang

Quantum wakes in lattice fermions

Israel Klich

Site-resolved imaging of ultracold fermions in a triangular-lattice quantum gas microscope

Jin Yang

A fermionic triangular-lattice quantum gas microscope

Jin Yang

Realizing a Fermi gas with strong long-range interactions using Rydberg dressing

Elmer Guardado-Sanchez

Ron Belyansky

Przemyslaw Bienias

Thomas Iadecola

Quench dynamics of a fermi gas with strong nonlocal interactions

Elmer Guardado-Sanchez

Benjamin M Spar

Ron Belyansky

Przemyslaw Bienias

Thomas Iadecola

Degenerate Fermi gases in a triangular optical lattice

Jin Yang

Progress towards a fermionic triangular lattice quantum gas microscope

Jin Yang

Towards quantum gas microscopy of fermions in p-bands

Jin Yang

Co-Authors

Eugene Demler

Thomas Pohl

Manuel Endres

Stefan Kuhr

Jacob Sherson

Trithep Devakul