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High-order harmonics in 2-dimensional crystals

Publications of Michael Lubasch

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Journal Article (1)

Journal Article (1)

2016

Journal Article

Systematic construction of density functionals based on matrix product state computations

M. Lubasch, J. I. Fuks, H. Appel, A. Rubio, J. I. Cirac, M.-C. Bañuls

New Journal of Physics 18 (8), 083039 (2016)

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CONTACTS

Nicolas Tancogne-Dejean

Group Leader +49 (0)40 8998-88313 nicolas.tancogne-dejean@...

Jenny Witt

Communications & PR +49 (0)40 8998-88044 pr@... jenny.witt@...

SOURCE PUBLICATION

N. Tancogne-Dejean, A. Rubio

Atomic-like high-harmonic generation from two-dimensional materials

https://doi.org/10.1126/sciadv.aao5207

QSpec-NewMat

This project has received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation programme under grant agreement No 694097.

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Other Interesting Articles

Supercomputer Ada accelerates computational research

May 18, 2022

A new supercomputer capable of handling highly data-intensive calculations for the MPSD and the MPI for the Physics of Complex Systems (MPIPKS) has gone online. Computations which would previously have taken two to three weeks can now be carried out within a single day.

Jérôme Faist comes to the MPSD with Humboldt Research Award

May 03, 2022

Dept Condensed Matter Dynamics Dept Theory Quantum Material Control

Jérôme Faist, Professor at the Institute for Quantum Electronics at ETH Zürich, has been awarded a Humboldt Prize to pursue his work at the MPSD in Hamburg. His research centers on the fluctuating fields found in a vacuum and how these could be controlled.

ERC Starting Grant for José J. Baldoví

January 10, 2022

Dept Theory Grp Theory

Dr. José J. Baldoví, a former member of the MPSD's Theory Department and now a distinguished researcher from the Gen-T Excellence Program of the Generalitat Valenciana in the Institute of Molecular Science (ICMol) of the University of València, has been awarded an ERC Starting Grant.

Humboldt Fellowship for I-Te Lu

November 09, 2021

Dept Theory Grp Theory Light-matter Interaction

The Alexander von Humboldt Foundation has awarded a Research Fellowship to I-Te Lu, who will study light-matter interaction using Quantum Electrodynamics Density Functional Theory (QEDFT) in Angel Rubio’s group at the MPSD.

Mildred Dresselhaus Prize for Shan and Narang

November 01, 2021

Dept Condensed Matter Dynamics Dept Theory Quantum Material Control Theoretical Methods

Jie Shan, Professor of Applied and Engineering Physics and Physics at Cornell University (USA), and Prineha Narang, Assistant Professor of Computational Materials Science at Harvard University (USA) and currently on a research stay at the MPSD, will be awarded the Mildred Dresselhaus Prize 2021.

Ultrafast control of quantum materials

October 15, 2021

Dept Condensed Matter Dynamics Dept Theory Grp Theory of Pump-Probe Spectroscopy Light-matter Interaction Max Planck - NY Center Quantum Material Control Grp Ultrafast Transport in Quantum Materials

Research team involving experimentalists and theorists explores how light can fundamentally alter the properties of solids - and how to harness these phenomena in laser-driven materials for future applications. Their colloquium has been published in Reviews of Modern Physics.

Simplified light-matter predictions

October 08, 2021

Dept Theory Grant QSpec-NewMat Grp Theory Light-matter Interaction Quantum Material Control

Predictions of how light interacts with real materials can consume vast computing resources. By reshaping the equation so that some quantum light is integrated in the matter component from the outset, scientists have developed a far more efficient approach.

Twisted MoS<sub>2</sub> yields new exotic states

Twisted MoS₂ yields new exotic states

September 24, 2021

Dept Theory Grant QSpec-NewMat Grp Theory Max Planck - NY Center New States of Matter Quantum Material Control

Twister bilayer MoS₂ can be used to control kinetic energy scales in solids. Researchers have shown that the electrons in MoS₂can interfere destructively, stopping their motion for certain paths. Combined with the twist this makes it possible to engineer exotic magnetic states.

Currents caused by laser loops

September 14, 2021

Dept Theory Grant QSpec-NewMat Grp Theory Light-matter Interaction Quantum Material Control

Theoreticians at the MPSD predict that a unique laser source could produce highly controllable electric currents in any bulk material. The team’s work has been published in PRL.

Nematicity by magnetism in TBG

September 14, 2021

Dept Theory Grant QSpec-NewMat Grp Theory of Pump-Probe Spectroscopy Max Planck - NY Center Quantum Material Control

Researchers in Hamburg and Aachen suggest a surprising connection between the nematic behavior of a superconductor in a magnetic field — a state that resembles liquid crystals used in LCDs — and its spiral-like groundstate in the absence of the field.

Trapped photons turn SrTiO<sub>3</sub> ferroelectric

Trapped photons turn SrTiO₃ ferroelectric

July 28, 2021

Dept Theory Grant QSpec-NewMat Grp Theory Quantum Material Control

Photons trapped in a cavity can cause a crystal known as Strontium Titanate (SrTiO₃) to become ferroelectric, according to a new study by the MPSD’s Theory group. The findings have been published in PNAS.

Trapped light can reveal phonoriton

June 04, 2021

Dept Theory Grant QSpec-NewMat Grp Theory Quantum Material Control

MPSD and MIT researchers predict that light trapped in a cavity can be used to create a new kind of particle in a solid, consisting of three components at once: Light (photons), electronic excitations (excitons) and lattice vibrations (phonons).

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