Spin excitations are considered as attractive hardware because of their superior coherence properties compared to other excitations in condensed matter and the possibility of novel collective phases emerging from interactions among spins. The main goal of the present initiative is to exploit such great potential with a particular focus on using semiconductors as material basis. Prospectively, if successful, spins may take over some of the functionalities so far fulfilled by charges. If semiconductors, whose electrical and optical properties can be tailored almost arbitrarily, could possess even highly-controllable magnetic order and properties, all-in-one-chip solutions for information processing could be envisaged. These goals require elaboration of advanced material concepts inspired by recent progress in obtaining highest purity systems and in combining different materials to hybrids. In addition, a significant role will be played by sophisticated manipulation tools, more specifically by advancements of spectroscopic approaches. This needs to be guided by quantum optical techniques to reach ultimate sensitivity and, at the same time, by the development of elaborate modeling of spins in their many-body environment. The research program is subdivided in three research areas: (i) zero-dimensional spin systems, (ii) extended spin systems and (iii) novel concepts of spin systems. Organized as a TRR, this program combines the core expertise of the Ioffe-Institute, the St. Petersburg State University and the TU Dortmund. The systems to be studied range from quantum dots, hosting localized electron and hole spins, to microcavities with strong light-matter coupling, containing superfluid spinor polariton condensates. Depending on the targeted magnetic functionality, these material systems are either combined with ferromagnetic or plasmonic metals to form hybrids or replaced with novel materials such as ferromagnetic oxides or antiferromagnetic 2D systems. This hardware will help us to answer yet unresolved problems and to explore completely novel approaches. To that end, measurement and manipulation tools involving laser light and microwave radiation as well as novel tools exploiting, e.g., phonons in ultrafast acoustics shall be used to reach coherent control of interacting spins with functionalities that cannot be achieved in the incoherent regime. Following this approach, the ICRC could provide an essential contribution to the future development of spin-optoelectronics for information technologies in the classical and the quantum regime. The ultimate goal is to drive coherent spin effects from the stage of fundamental investigations towards technological applications outperforming the present-day state-of-the-art ones.

DFG Programme CRC/Transregios

International Connection Russia

• A01 - Coherent manipulation of complex spin ensembles in semiconductor nanostructures (Project Heads Bayer, Manfred ;  Yugova, Irina )
• A02 - Coherence and entanglement of fluorine impurity spin-qubits in ZnSe (Project Head Greilich, Alex )
• A03 - Transient four-wave mixing with spins (Project Heads Akimov, Ilya ;  Poltavtsev, Sergey ;  Yugova, Irina )
• A04 - Coherent control of the electronic and nuclear spins in quantum dot ensembles (Project Heads Anders, Frithjof B. ;  Glazov, Mikhail ;  Smirnov, Dimitry ;  Uhrig, Götz S. )
• A05 - Basic problems of spin-noise signal formation (Project Heads Bayer, Manfred ;  Glazov, Mikhail ;  Greilich, Alex ;  Zapasskii, Valerii )
• A06 - Impact of nuclear spin cooling on carrier spin coherence (Project Heads Cherbunin, Roman ;  Ignatiev, Ivan V. ;  Kavokin, Kirill ;  Suter, Dieter ;  Yakovlev, Ph.D., Dmitri )
• A07 - Theory of spin-noise in semiconductor quantum dots (Project Heads Anders, Frithjof B. ;  Glazov, Mikhail ;  Ivchenko, Eugeniius ;  Uhrig, Götz S. )
• A08 - Interacting Rydberg excitons in modulated potential landscapes (Project Heads Aßmann, Marc Alexander ;  Bayer, Manfred ;  Glazov, Mikhail ;  Ignatiev, Ivan V. ;  Semina, Marina A. )
• B01 - Interaction of exciton, carrier and dangling bond spins in colloidal nanostructures (Project Heads Betz, Markus ;  Ivchenko, Eugeniius ;  Rodina, Anna ;  Yakovlev, Ph.D., Dmitri )
• B02 - Spin-flip Raman scattering for studying spin interactions (Project Heads Debus, Jörg ;  Kusrayev, Yuri ;  Sapega, Victor ;  Yakovlev, Ph.D., Dmitri )
• B03 - Optical generation and detection of spin transport (Project Heads Betz, Markus ;  Golub, Leonid .E. ;  Ruppert, Claudia ;  Tarasenko, Sergey A. )
• B04 - Spin interactions between magnetic ions and carriers (Project Heads Debus, Jörg ;  Korenev, Vladimir Lvovich ;  Kusrayev, Yuri ;  Pavlov, Victor ;  Wieck, Andreas Dirk ;  Yakovlev, Ph.D., Dmitri )
• B06 - Ultrafast acoustics for magnetization modulation (Project Heads Bayer, Manfred ;  Ivchenko, Eugeniius ;  Scherbakov, Ph.D., Alexey )
• B07 - Spin-dependent polariton condensates (Project Heads Aßmann, Marc Alexander ;  Kavokin, Alexey )
• B08 - Femtosecond-manipulation of charge-magnetism coupling in an antiferromagnetic semiconductor (Project Heads Anders, Frithjof B. ;  Bossini, Davide ;  Cinchetti, Mirko ;  Uhrig, Götz S. )
• B09 - Ultrafast control of spins in magnetically ordered 2D materials (Project Heads Bossini, Davide ;  Cinchetti, Mirko ;  Kalashnikova, Ph.D., Alexandra M. )
• C02 - Ferromagnetic proximity effect in ferromagnetic-semiconductor hybrid structure (Project Heads Akimov, Ilya ;  Korenev, Vladimir Lvovich )
• C05 - Enhanced magneto-optics in plasmonic structures (Project Heads Akimov, Ilya ;  Poddubny, Ph.D., Alexander )
• C06 - X-ray analysis of magnetic structures (Project Head Tolan, Metin )
• C07 - Spin resonance: ESR-NMR with optical detection (Project Heads Baranov, Pavel ;  Suter, Dieter )
• C08 - Spin-induced optical harmonics generation in semiconductors and low-dimensional structures (Project Heads Pavlov, Victor ;  Rodina, Anna ;  Semina, Marina A. ;  Yakovlev, Ph.D., Dmitri )
• C09 - Tailoring macroscopic functionalities in a semiconducting oxide (Project Heads Cinchetti, Mirko ;  Müller, Martina )
• MGK - Integrated research training group (Project Heads Anders, Frithjof B. ;  Cinchetti, Mirko ;  Glazov, Mikhail ;  Ignatiev, Ivan V. )
• Z01 - Fabrication of GaAs-based tailored quantum confined semiconductor structures in functional environment (Project Heads Ludwig, Arne ;  Wieck, Andreas Dirk )
• Z02 - Fluorine spin qubits in isotopically enriched II-VI semiconductors (Project Heads Pawlis, Alexander ;  Reuter, Dirk )
• Z03 - Central administrative project (Project Head Bayer, Manfred )
• Z04 - Sample supply by external partners (Project Head Bayer, Manfred )

Applicant Institution Technische Universität Dortmund

Co-Applicant Institution Saint Petersburg University, until 2/2022

Partner Organisation Russian Foundation for Basic Research, until 2/2022

Spokesperson Professor Dr. Manfred Bayer