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Johannes Lotze was member of the Gross group at WMI as a Ph.D. student between April 2011 and April 2015. Ph.D. Thesis: Spin Pumping in Ferrimagnetic/Normal Metal Bilayers (2015) In his Ph.D.

Publication: Nonequilibrium magnetic phases in spin lattices with gain and loss

| Julian Huber and Peter Kirton and Peter Rabl

Publication: Phonon-Induced Spin-Spin Interactions in Diamond Nanostructures: Application to Spin Squeezing

| Bennett, S. D. and Yao, N. Y. and Otterbach, J. and Zoller, P. and Rabl, P. and Lukin, M. D.

Publication: Long-range and frustrated spin-spin interactions in crystals of cold polar molecules

| Zhou, Y. L. and Ortner, M. and Rabl, P.

Publication: A quantum spin transducer based on nanoelectromechanical resonator arrays

| Rabl, P. and Kolkowitz, S. J. and Koppens, F. H. L. and Harris, J. G. E. and Zoller, P. and Lukin, M. D.

Publication: Strong magnetic coupling between an electronic spin qubit and a mechanical resonator

| Rabl, P. and Cappellaro, P. and Dutt, M. V. Gurudev and Jiang, L. and Maze, J. R. and Lukin, M. D.

Publication: Structural, electrical and magnetic properties of reactively DC sputtered Cu and Ti thin films. Application to Cu/Ti neutron supermirrors for low spin-flip applications

A Cu/Ti neutron supermirror was developed and optimized for high overall and low spin-dependent neutron reflectivities. Control of the roughness growth allowed to achieve 90% reflectivity at the

News: Phonons with Spin

WMI researchers demonstrate the interconversion of magnons and chiral phonons using a versatile experimental platform

Project: Constrained Quantum Matter

The Transregional Collaborative Research Center ’Constrained Quanutum Matter (ConQuMat)’ is based on the recent advances in the understanding of the organizing principles of quantum matter, alongside

Course: Novel Topics in Magnetism: quantum hybrid systems, spin dynamics, and angular momentum transport (0000003937) S 2026

For topics, see: https://www.moodle.tum.de/course/view.php?idnumber=950798417

News: A New Way to Transport Spin Currents

Spin currents carried by magnetic waves called magnons can be sent across a device without using insulating magnets.

Project: Pseudospin-based Antiferromagnetic Magnonics

Spin-based information processing is a viable alternative to charge-based approaches, enabling low-power devices. In magnetically ordered systems, spin information can be transported via the

Course: Novel Topics in Magnetism: quantum hybrid systems, spin dynamics, and angular momentum transport (0000003937) S 2026

For topics, see: https://www.moodle.tum.de/course/view.php?idnumber=950798417

Some Facts About Helium

In 1938, the Russian physicist Pyotr Leonidovich Kapitsa discovered that 4He has almost no viscosity at temperatures near absolute zero. This phenomenon, which is related to Bose–Einstein

Publication: Spinabhängiger Transport in Magnetit

| Kaiser, Wolfgang

Publication: Spinabhängiger Transport in Übergangsmetalloxiden

| Jan Boris Philipp

Publication: Untersuchung des Spindichtewellen-Übergangs in BaFe2As2

| Andrea Baum

Publication: Hochwertige supraleitende Dünnfilme für fortgeschrittene Spinelektronik

| Reichert, Michael

Publication: Magnetit - ein Material für die Spinelektronik

| Andrea Nielsen

Publication: Wachstumsoptimierung supraleitender Tantalnitrid (TaN)-Dünnfilme für fortgeschrittene Spinelektronik

| Hoepfl, Raphael