Stefan Schütz
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View article: Exploring superconductivity under strong coupling with the vacuum electromagnetic field
Exploring superconductivity under strong coupling with the vacuum electromagnetic field Open
Strong light–matter interactions have generated considerable interest as a means to manipulate material properties. Here, we explore this possibility with the molecular superconductor Rb3C60 under vibrational strong coupling (VSC) to surfa…
View article: Intrinsically disordered regions in the transcription factor MYC:MAX modulate DNA binding via intramolecular interactions
Intrinsically disordered regions in the transcription factor MYC:MAX modulate DNA binding via intramolecular interactions Open
The basic helix-loop-helix leucine zipper (bHLH-LZ) transcription factor (TF) MYC is in large parts an intrinsically disordered oncoprotein. In complex with its obligate heterodimerization partner MAX, MYC preferentially binds E-Box DNA se…
View article: Collective Dissipative Molecule Formation in a Cavity
Collective Dissipative Molecule Formation in a Cavity Open
We propose a mechanism to realize high-yield molecular formation from ultracold atoms. Atom pairs are continuously excited by a laser, and a collective decay into the molecular ground state is induced by a coupling to a lossy cavity mode. …
View article: Adiabatic elimination for ensembles of emitters in cavities with dissipative couplings
Adiabatic elimination for ensembles of emitters in cavities with dissipative couplings Open
We consider an ensemble of cavity-coupled two-level emitters interacting via full (coherent and dissipative) dipole-dipole interactions. Using an adiabatic elimination procedure we derive effective equations of motion for a subsystem consi…
View article: Ensemble-Induced Strong Light-Matter Coupling of a Single Quantum Emitter
Ensemble-Induced Strong Light-Matter Coupling of a Single Quantum Emitter Open
We discuss a technique to strongly couple a single target quantum emitter to a cavity mode, which is enabled by virtual excitations of a nearby mesoscopic ensemble of emitters. A collective coupling of the latter to both the cavity and the…
View article: Liquid-Liquid Phase Separation: Molecular Mechanisms and Influence on the mRNA Decapping Machinery
Liquid-Liquid Phase Separation: Molecular Mechanisms and Influence on the mRNA Decapping Machinery Open
Cellular liquid-liquid phase separation (LLPS) results in the formation of dynamic membrane-less granules that play an important role in many biological processes. On a molecular level, the clustering of proteins into a confined space resu…
View article: Methyl TROSY spectroscopy: A versatile NMR approach to study challenging biological systems
Methyl TROSY spectroscopy: A versatile NMR approach to study challenging biological systems Open
A major goal in structural biology is to unravel how molecular machines function in detail. To that end, solution-state NMR spectroscopy is ideally suited as it is able to study biological assemblies in a near natural environment. Based on…
View article: Quenches across the self-organization transition in multimode cavities
Quenches across the self-organization transition in multimode cavities Open
A cold dilute atomic gas in an optical resonator can be radiatively cooled by coherent scattering processes when the driving laser frequency is tuned close to but below the cavity resonance. When the atoms are sufficiently illuminated, the…
View article: A synergistic network of interactions promotes the formation of in vitro processing bodies and protects mRNA against decapping
A synergistic network of interactions promotes the formation of in vitro processing bodies and protects mRNA against decapping Open
Cellular liquid-liquid phase separation (LLPS) results in the formation of dynamic granules that play an important role in many biological processes. On a molecular level, the clustering of proteins into a confined space results from an in…
View article: Dynamics and stability of self-organized atomic crystals in optical cavities
Dynamics and stability of self-organized atomic crystals in optical cavities Open
This work deals with the theory of atoms coupled to the quantum light field\nof an optical resonator and driven by lasers. The studies address a regime\nwhere, above a critical value of the laser intensity, the atoms spontaneously\nform re…