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1. Coherence of a non-equilibrium polariton condensate across the interaction-mediated phase transition

Author

Comaron, P., Estrecho, E., Wurdack, M., Pieczarka, M., Steger, M., Snoke, D. W., West, K., Pfeiffer, L. N., Truscott, A. G., Matuszewski, M., Szymanska, M., and Ostrovskaya, E. A.

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

The emergence of spatial coherence in a confined two-dimensional Bose gas of exciton-polaritons with tuneable interactions offers a unique opportunity to explore the role of interactions in a phase transition in a driven-dissipative quantum system, where both the phase transition and thermalisation are mediated by interactions. We investigate, experimentally and numerically, the phase correlations and steady-state properties of the gas over a wide range of interaction strengths by varying the photonic/excitonic fraction of the polaritons and their density. We find that the first order spatial coherence function exhibits algebraic decay consistent with the Berezinskii-Kosterlitz-Thouless (BKT) phase transition. Surprisingly, the exponent of the algebraic decay is inversely proportional to the coherent density of polaritons, in analogy to equilibrium superfluids above the BKT transition, but with a different proportionality constant. Our work paves the way for future investigations of the phenomenon of phase transitions and superfluidity in a driven-dissipative setting, Comment: 11 pages, 6 figures

Published
2024

2. Reanalysis of experimental determinations of polariton-polariton interactions in microcavities

Author

Snoke, DW, Hartwell, V, Beaumariage, J, Mukherjee, S, Yoon, Y, Myers, DM, Steger, M, Sun, Z, Nelson, KA, and Pfeiffer, LN

Subjects
Quantum Physics, Physical Sciences, Chemical sciences, Engineering, Physical sciences
Abstract

The polariton-polariton interaction strength is an important parameter for all kinds of applications using the nonlinear properties of polaritons, such as optical switching and single-photon blockade devices. In this paper, we review and compare the results of a series of experiments on polariton-polariton interactions in GaAs/AlxGa1-xAs microcavity polariton structures and present an updated analysis of these experiments. We show that not just the energy shift of the spectral lines but also the results of measurements sensitive to the polariton scattering rate are important for the calibration of the interaction parameter at low excitation density. We find that when adjustments are made to correct for recent understanding of the experiments, the value of the interaction parameter at low density is lower than previous reported, but still significantly higher than theoretically predicted.

Published
2023

3. Reanalysis of experimental determinations of polariton-polariton interactions in microcavities

Author

Snoke, D. W., Hartwell, V., Beaumariage, J., Mukherjee, S., Yoon, Y., Myers, D. M., Steger, M., Sun, Z., Nelson, K. A., and Pfeiffer, L. N.

Subjects
Condensed Matter - Quantum Gases
Abstract

The polariton-polariton interaction strength is an important parameter for all kinds of applications using the nonlinear properties of polaritons, such as optical switching and single-photon blockade devices. In this paper, we review and compare the results of a series of experiments on polariton-polariton interactions in GaAs/Al$_x$Ga$_{-1x}$As microcavity polariton structures, and present new theoretical analysis of these experiments. We show that not just the energy shift of the spectral lines, but also the results of measurements sensitive to the polariton scattering rate are important for the calibration of the interaction parameter at low excitation density. We find that when adjustments are made to correct for new understanding of the experiments, the value of the interaction parameter at low density is lower than previous reported, but still significantly higher than theoretically predicted., Comment: Review article with 13 figures

Published
2021

4. Topological phase transition in an all-optical exciton-polariton lattice

Author

Pieczarka, M., Estrecho, E., Ghosh, S., Wurdack, M., Steger, M., Snoke, D. W., West, K., Pfeiffer, L. N., Liew, T . C. H., Truscott, A. G., and Ostrovskaya, E. A.

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Quantum Gases
Abstract

Topological insulators are a class of electronic materials exhibiting robust edge states immune to perturbations and disorder. This concept has been successfully adapted in photonics, where topologically nontrivial waveguides and topological lasers were developed. However, the exploration of topological properties in a given photonic system is limited to a fabricated sample, without the flexibility to reconfigure the structure in-situ. Here, we demonstrate an all-optical realization of the orbital Su-Schrieffer-Heeger (SSH) model in a microcavity exciton-polariton system, whereby a cavity photon is hybridized with an exciton in a GaAs quantum well. We induce a zigzag potential for exciton polaritons all-optically, by shaping the nonresonant laser excitation, and measure directly the eigenspectrum and topological edge states of a polariton lattice in a nonlinear regime of bosonic condensation. Furthermore, taking advantage of the tunability of the optically induced lattice we modify the intersite tunneling to realize a topological phase transition to a trivial state. Our results open the way to study topological phase transitions on-demand in fully reconfigurable hybrid photonic systems that do not require sophisticated sample engineering., Comment: 7 pages, 4 figures

Published
2021

5. Collective excitations of exciton-polariton condensates in a synthetic gauge field

Author

Biegańska, D., Pieczarka, M., Estrecho, E., Steger, M., Snoke, D. W., West, K., Pfeiffer, L. N., Syperek, M., Truscott, A. G., and Ostrovskaya, E. A.

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Collective (elementary) excitations of quantum bosonic condensates, including condensates of exciton polaritons in semiconductor microcavities, are a sensitive probe of interparticle interactions. In anisotropic microcavities with momentum-dependent TE-TM splitting of the optical modes, the excitations dispersions are predicted to be strongly anisotropic, which is a consequence of the synthetic magnetic gauge field of the cavity, as well as the interplay between different interaction strengths for polaritons in the singlet and triplet spin configurations. Here, by directly measuring the dispersion of the collective excitations in a high-density optically trapped exciton-polariton condensate, we observe excellent agreement with the theoretical predictions for spinor polariton excitations. We extract the inter- and intra-spin polariton interaction constants and map out the characteristic spin textures in an interacting spinor condensate of exciton polaritons.

Published
2020
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6. Dynamics of spin polarization in tilted polariton rings

Author

Mukherjee, S., Kozin, V. K., Nalitov, A. V., Shelykh, I. A., Sun, Z., Myers, D. M., Ozden, B., Beaumariage, J., Steger, M., Pfeiffer, L. N., West, K., and Snoke, D. W.

Subjects
Condensed Matter - Quantum Gases
Abstract

We have observed the effect of pseudo magnetic field originating from the polaritonic analog of spin-orbit coupling (TE$-$TM splitting) on a polariton condensate in a ring-shaped microcavity. The effect gives rise to a stable four-leaf pattern around the ring as seen from the linear polarization measurements of the condensate photoluminescence. This pattern is found to originate from the interplay of the cavity potential, energy relaxation, and TE-TM splitting in the ring. Our observations are compared to the dissipative one-dimensional spinor Gross-Pitaevskii equation with the TE-TM splitting energy which shows good qualitative agreement., Comment: 13 pages, 7 figures, preprint version, minor edit v2

Published
2020
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7. Low-energy collective oscillations and Bogoliubov sound in an exciton-polariton condensate

Author

Estrecho, E., Pieczarka, M., Wurdack, M., Steger, M., West, K., Pfeiffer, L. N., Snoke, D. W., Truscott, A. G., and Ostrovskaya, E. A.

Subjects
Condensed Matter - Quantum Gases
Abstract

We report the observation of low-energy, low-momenta collective oscillations of an excitonpolariton condensate in a round "box" trap. The oscillations are dominated by the dipole and breathing modes, and the ratio of the frequencies of the two modes is consistent with that of a weakly interacting two-dimensional trapped Bose gas. The speed of sound extracted from the dipole oscillation frequency is smaller than the Bogoliubov sound, which can be partly explained by the influence of the incoherent reservoir. These results pave the way for understanding the effects of reservoir, dissipation, energy relaxation, and finite temperature on the superfluid properties of exciton-polariton condensates and other two-dimensional open-dissipative quantum fluids., Comment: 13 pages, 15 figures

Published
2020
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8. Spatial distribution of an optically induced excitonic reservoir below exciton-polariton condensation threshold

Author

Boozarjmehr, M., Steger, M., West, K., Pfeiffer, L. N., Snoke, D. W., Truscott, A. G., Ostrovskaya, E. A., and Pieczarka, M.

Subjects
Condensed Matter - Quantum Gases
Abstract

Optical trapping and manipulation of microcavity exciton polaritons rely on effective potentials induced by the interaction of polaritons with a reservoir of high energy excitonic particles injected by an off-resonant optical pump. Here, we experimentally investigate possible mechanisms responsible for reshaping of these effective potentials in the low-density exciton-polariton regime. We infer the spatial distribution of the reservoir from the spatially resolved energy of exciton-polariton emission measured at zero momentum (zero kinetic energy). Power-dependent shape analysis of the potential barrier induced by a focused continuous wave laser pump shows a monotonic decrease of the barrier width with increasing excitation power, which is attributed to the local heating of the sample at the pump spot. In addition, we observe the significant influence of the reservoir on the zero-momentum emission tens of micrometers away from the laser pump spot, which is in line with the previously reported enhanced transport of high-momentum excitonic polaritons from the bottleneck region. Our work presents evidence for a complex spatial reshaping of the reservoir with the pump power, contrary to the common assumption of a static reservoir distribution fixed by the intensity profile of the pump., Comment: There was a substantial error in the analysis of the experimental data presented in the paper. The figures as well as the conclusions of the manuscript are incorrect and should not be cited

Published
2019

9. Observation of Non-equilibrium Motion and Equilibration in Polariton Rings

Author

Mukherjee, S., Myers, D. M., Lena, R. G., Ozden, B., Beaumariage, J., Sun, Z., Steger, M., Pfeiffer, L. N., West, K., Daley, A. J., and Snoke, D. W.

Subjects
Condensed Matter - Quantum Gases
Abstract

We present a study of the macroscopic dynamics of a polariton condensate formed by non-resonant optical excitation in a quasi-one-dimensional ring-shaped microcavity. The presence of a gradient in the cavity photon energy creates a macroscopic trap for the polaritons in which a single mode condensate is formed. With time- and energy-resolved imaging we show the role of interactions in the motion of the condensate as it undergoes equilibration in the ring. These experiments also give a direct measurement of the polariton-polariton interaction strength above the condensation threshold. Our observations are compared to the open-dissipative one-dimensional Gross-Pitaevskii equation which shows excellent qualitative agreement., Comment: Revised manuscript for Phys Rev. B submission

Published
2019
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10. Direct measurement of polariton-polariton interaction strength in the Thomas-Fermi regime of exciton-polariton condensation

Author

Estrecho, E., Gao, T., Bobrovska, N., Comber-Todd, D., Fraser, M. D., Steger, M., West, K., Pfeiffer, L. N., Levinsen, J., Parish, M. M., Liew, T. C. H., Matuszewski, M., Snoke, D. W., Truscott, A. G., and Ostrovskaya, E. A.

Subjects
Condensed Matter - Quantum Gases
Abstract

Bosonic condensates of exciton polaritons (light-matter quasiparticles in a semiconductor) provide a solid-state platform for studies of non-equilibrium quantum systems with a spontaneous macroscopic coherence. These driven, dissipative condensates typically coexist and interact with an incoherent reservoir, which undermines measurements of key parameters of the condensate. Here, we overcome this limitation by creating a high-density exciton-polariton condensate in an optically-induced "box" trap. In this so-called Thomas-Fermi regime, the condensate is fully separated from the reservoir and its behaviour is dominated by interparticle interactions. We use this regime to directly measure the polariton-polariton interaction strength, and reduce the existing uncertainty in its value from four orders of magnitude to within three times the theoretical prediction. The Thomas-Fermi regime has previously been demonstrated only in ultracold atomic gases in thermal equilibrium. In a non-equilibrium exciton-polariton system, this regime offers a novel opportunity to study interaction-driven effects unmasked by an incoherent reservoir., Comment: 11 pages, 5 figures

Published
2018
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11. Effect of optically-induced potential on the energy of trapped exciton-polaritons below the condensation threshold

Author

Pieczarka, M., Boozarjmehr, M., Estrecho, E., Yoon, Y., Steger, M., West, K., Pfeiffer, L. N., Nelson, K. A., Snoke, D. W., Truscott, A. G., and Ostrovskaya, E. A.

Subjects
Condensed Matter - Quantum Gases
Abstract

Exciton-polaritons (polaritons herein) offer a unique nonlinear platform for studies of collective macroscopic quantum phenomena in a solid state system. Shaping of polariton flow and polariton confinement via potential landscapes created by nonresonant optical pumping has gained considerable attention due to the degree of flexibility and control offered by optically-induced potentials. Recently, large density-dependent energy shifts (blueshifts) exhibited by optically trapped polaritons at low densities, below the bosonic condensation threshold, were interpreted as an evidence of strong polariton-polariton interactions [Nat. Phys. 13, 870 (2017)]. In this work, we further investigate the origins of these blueshifts in optically-induced circular traps and present evidence of significant blueshift of the polariton energy due to reshaping of the optically-induced potential with laser pump power. Our work demonstrates strong influence of the effective potential formed by an optically-injected excitonic reservoir on the energy blueshifts observed below and up to the polariton condensation threshold and suggests that the observed blueshifts arise due to interaction of polaritons with the excitonic reservoir, rather than due to polariton-polariton interaction., Comment: 10 pages, 8 figures

Published
2018
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12. Polariton-Enhanced Exciton Transport

Author

Myers, D. M., Mukherjee, S., Beaumariage, J., Steger, M., Pfeiffer, L. N., West, K., and Snoke, D. W.

Subjects
Condensed Matter - Quantum Gases
Abstract

The transport distance of excitons in exciton-polariton systems has previously been assumed to be very small ($\lesssim 1~\mu$m). The sharp spatial profiles observed when generating polaritons by non-resonant optical excitation show that this assumption is generally true. In this paper, however, we show that the transport distances of excitons in two-dimensional planar cavity structures with even a slightly polaritonic character are much longer than expected ($\approx 20~\mu$m). Although this population of slightly polaritonic excitons is normally small compared to the total population of excitons, they can substantially outnumber the population of the polaritons at lower energies, leading to important implications for the tailoring of potential landscapes and the measurement of interactions between polaritons., Comment: 11 pages, 11 figures

Published
2018
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13. Superlinear Increase of Photocurrent due to Stimulated Scattering into a Polariton Condensate

Author

Myers, D., Ozden, B., Steger, M., Sedov, E., Kavokin, A., West, K., Pfeiffer, L. N., and Snoke, D. W.

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We show that when a monopolar current is passed through an n-i-n structure, superlinear photocurrent response occurs when there is a polariton condensate. This is in sharp contrast to the previously observed behavior for a standard semiconductor laser. Theoretical modeling shows that this is due to a stimulated exciton-exciton scattering process in which one exciton relaxes into the condensate, while another one dissociates into an electron-hole pair., Comment: 17 pages with 10 figures

Published
2017
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14. Chiral modes at exceptional points in exciton-polariton quantum fluids

Author

Gao, T., Li, G., Estrecho, E., Liew, T. C. H., Comber-Todd, D., Nalitov, A., Steger, M., West, K., Pfeiffer, L., Snoke, D., Kavokin, A. V., Truscott, A. G., and Ostrovskaya, E. A.

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

We demonstrate generation of chiral modes -- vortex flows with fixed handedness in exciton-polariton quantum fluids. The chiral modes arise in the vicinity of exceptional points (non-Hermitian spectral degeneracies) in an optically-induced resonator for exciton polaritons. In particular, a vortex is generated by driving two dipole modes of the non-Hermitian ring resonator into degeneracy. Transition through the exceptional point in the space of the system's parameters is enabled by precise manipulation of real and imaginary parts of the closed-wall potential forming the resonator. As the system is driven to the vicinity of the exceptional point, we observe the formation of a vortex state with a fixed orbital angular momentum (topological charge). Our method can be extended to generate high-order orbital angular momentum states through coalescence of multiple non-Hermitian spectral degeneracies, which could find application in integrated optoelectronics., Comment: 6 pages, 6 figures

Published
2017
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15. Spontaneous condensation of exciton polaritons in the single-shot regime

Author

Estrecho, E., Gao, T., Bobrovska, N., Fraser, M. D., Steger, M., Pfeiffer, L., West, K., Liew, T. C. H., Matuszewski, M., Snoke, D. W., Truscott, A. G., and Ostrovskaya, E. A.

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Bose-Einstein condensate of exciton polaritons in a semiconductor microcavity is a macroscopically populated coherent quantum state subject to concurrent pumping and decay. Debates about the fundamental nature of the condensed phase in this open quantum system still persist. Here, we gain a new insight into the spontaneous condensation process by imaging long-lifetime exciton polaritons in a high-quality inorganic microcavity in the single-shot optical excitation regime, without averaging over multiple condensate realisations. In this highly non-stationary regime, a condensate is strongly influenced by the `hot' incoherent reservoir, and reservoir depletion is critical for the transition to the ground energy and momentum state. Condensates formed by more photonic exciton polaritons exhibit dramatic reservoir-induced density filamentation and shot-to-shot fluctuations. In contrast, condensates of more excitonic quasiparticles display smooth density and are second-order coherent. Our observations show that the single-shot measurements offer a unique opportunity to study formation of macroscopic phase coherence during a quantum phase transition in a solid state system., Comment: 18 pages, 5 figures

Published
2017

16. Industrial Prediction of Jet-Flap Interaction Noise with Advanced Hybrid RANS-LES Methods

Author

Mockett, C., Fuchs, M., Knacke, T., Kramer, F., Michel, U., Steger, M., Thiele, F., Hirschel, Ernst Heinrich, Founding Editor, Schröder, Wolfgang, Series Editor, Boersma, Bendiks Jan, Series Editor, Fujii, Kozo, Series Editor, Haase, Werner, Series Editor, Leschziner, Michael A., Series Editor, Periaux, Jacques, Series Editor, Pirozzoli, Sergio, Series Editor, Rizzi, Arthur, Series Editor, Roux, Bernard, Series Editor, Shokin, Yurii I., Series Editor, Hoarau, Yannick, editor, Peng, Shia-Hui, editor, Schwamborn, Dieter, editor, Revell, Alistair, editor, and Mockett, Charles, editor

Published
2020
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17. ROS-dependent modulation of Rab7 contributes to chronic pain processing

Author

Kallenborn-Gerhardt, W, Moeser, C, Lorenz, JE, Steger, M, Heidler, J, Scheving, R, Petersen, J, Lu, R, Edinger, AL, Tegeder, I, Geisslinger, G, Heide, H, Wittig, I, and Schmidtko, A

Subjects
Pharmacology and Pharmaceutical Sciences, Medical Physiology, Pharmacology & Pharmacy
Published
2017

19. Optically detected NMR of optically hyperpolarized 31P neutral donors in 28Si

Author

Steger, M., Sekiguchi, T., Yang, A., Saeedi, K., Hayden, M. E., Thewalt, M. L. W., Itoh, K. M., Riemann, H., Abrosimov, N. V., Becker, P., and Pohl, H. -J.

Subjects
Physics - Atomic Physics, Condensed Matter - Other Condensed Matter, Quantum Physics
Abstract

The electron and nuclear spins of the shallow donor 31P are promising qubit candidates invoked in many proposed Si-based quantum computing schemes. We have recently shown that the near-elimination of inhomogeneous broadening in highly isotopically enriched 28Si enables an optical readout of both the donor electron and nuclear spins by resolving the donor hyperfine splitting in the near-gap donor bound exciton transitions. We have also shown that pumping these same transitions can very quickly produce large electron and nuclear hyperpolarizations at low magnetic fields, where the equilibrium electron and nuclear polarizations are very small. Here we show preliminary results of the measurement of 31P neutral donor NMR parameters using this optical nuclear hyperpolarization mechanism for preparation of the 31P nuclear spin system, followed by optical readout of the resulting nuclear spin population after manipulation with NMR pulse sequences. This allows for the observation of single-shot NMR signals with very high signal to noise ratio under conditions where conventional NMR is not possible, due to the low concentration of 31P and the small equilibrium polarization., Comment: Invited Presentation at ICPS-30 (2010), Seoul, Korea

Published
2010
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20. Hyperfine structure and nuclear hyperpolarization observed in the bound exciton luminescence of Bi donors in natural Si

Author

Sekiguchi, T., Steger, M., Saeedi, K., Thewalt, M. L. W., Riemann, H., Abrosimov, N. V., and Noetzel, N.

Subjects
Quantum Physics
Abstract

As the deepest group V donor in Si, Bi has by far the largest hyperfine interaction, and also a large I=9/2 nuclear spin. At zero field this splits the donor ground state into states having total spin 5 and 4, which are fully resolved in the photoluminescence spectrum of Bi donor bound excitons. Under a magnetic field, the 60 expected allowed transitions cannot be individually resolved, but the effects of the nuclear spin distribution, -9/2 <= I_z <= 9/2, are clearly observed. A strong hyperpolarization of the nuclear spin, with sign opposite to the expected equilibrium polarization, is observed to result from the nonresonant optical excitation. This is very similar to the recently reported optical hyperpolarization of P donors observed by EPR at higher magnetic fields. We introduce a new model to explain this effect, and predict that it may be very fast., Comment: 4 pages, 3 figures, 1 table

Published
2009
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21. Simultaneous sub-second hyperpolarization of the nuclear and electron spins of phosphorus in silicon

Author

Yang, A., Steger, M., Sekiguchi, T., Thewalt, M. L. W., Ladd, T. D., Itoh, K. M., Riemann, H., Abrosimov, N. V., Becker, P., and Pohl, H. -J.

Subjects
Quantum Physics
Abstract

We demonstrate a method which can hyperpolarize both the electron and nuclear spins of 31P donors in Si at low field, where both would be essentially unpolarized in equilibrium. It is based on the selective ionization of donors in a specific hyperfine state by optically pumping donor bound exciton hyperfine transitions, which can be spectrally resolved in 28Si. Electron and nuclear polarizations of 90% and 76%, respectively, are obtained in less than a second, providing an initialization mechanism for qubits based on these spins, and enabling further ESR and NMR studies on dilute 31P in 28Si., Comment: 4 pages, 3 figures

Published
2009
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35. Nachhaltigkeit nach Corona - stärkeres Engagement und verantwortungsvolle Dynamik sind notwendig. Memorandum zum IESP Workshop, 18. – 20. Oktober 2021, Bad Wörishofen

Author

Bauer, W., Beckmann, J., Blien, U., Brunnhuber, S., Dewilde, P., Fröhling, M., Grambow, M., Habel, J.-C., Hemmer, I., Keilmann-Gondhalekar, D., Lang, E., Liedl, P., Limmer, A., Makarieva, A., Mauser, W., Nefiodov, A., Oexle, K., Rammig, A., Rau, H., Schreurs, M., Settele, Josef, Steger, M., Stöckl-Bauer, K., von Hauff, M., Wernecke, J.-W., Bauer, W., Beckmann, J., Blien, U., Brunnhuber, S., Dewilde, P., Fröhling, M., Grambow, M., Habel, J.-C., Hemmer, I., Keilmann-Gondhalekar, D., Lang, E., Liedl, P., Limmer, A., Makarieva, A., Mauser, W., Nefiodov, A., Oexle, K., Rammig, A., Rau, H., Schreurs, M., Settele, Josef, Steger, M., Stöckl-Bauer, K., von Hauff, M., and Wernecke, J.-W.

Abstract

no abstract

Published
2021

36. Sustainability Post-Corona. Stronger commitment and responsible dynamics are needed! Memorandum to the IESP Workshop, 18. – 20. October 2021, Bad Wörishofen

Author

Bauer, W., Beckmann, J., Blien, U., Brunnhuber, S., Dewilde, P., Fröhling, M., Grambow, M., Habel, J.-C., Hemmer, I., Keilmann-Gondhalekar, D., Lang, E., Liedl, P., Limmer, A., Makarieva, A., Mauser, W., Nefiodov, A., Oexle, K., Rammig, A., Rau, H., Schreurs, M., Settele, Josef, Steger, M., Stöckl-Bauer, K., von Hauff, M., Wernecke, J.-W., Bauer, W., Beckmann, J., Blien, U., Brunnhuber, S., Dewilde, P., Fröhling, M., Grambow, M., Habel, J.-C., Hemmer, I., Keilmann-Gondhalekar, D., Lang, E., Liedl, P., Limmer, A., Makarieva, A., Mauser, W., Nefiodov, A., Oexle, K., Rammig, A., Rau, H., Schreurs, M., Settele, Josef, Steger, M., Stöckl-Bauer, K., von Hauff, M., and Wernecke, J.-W.

Abstract

Since 2020, the global COVID-19 crisis has been exposing numerous shortcomings in society and the global economy. In Germany, for example, archaic work structures prevail in parts of the food industry; other industry sectors blame COVID-19 for their long standing crises, thereby deliberately diverting attention from existing structural deficits and missed opportunities. Now is the time to examine and expose (mis)developments in order to understand the current global situation. A collective desire for attuned development goals and social (value) orientation has become evident. Quality of life is challenging monetary wealth as the sole indicator of prosperity and individual satisfaction. Today, people accept change, if it secures health, promotes new working environments, and achieves climate goals. Consequently, the “old” growth paradigm, based on maximizing individual benefit, is ready to be replaced by a new paradigm that maximizes societal benefit. Solidary action paves the way towards sustainability. Not to learn form a crisis is not to understand the crisis! Corona offers us an opportunity to rethink and reset. Can we utilize the pandemic experiences to increase dynamics in realizing the 17 UN-Sustainable Development Goals (SDGs), or ensure that we achieve them at all? We, a group of 26 experts from society, science, and politics discussed this issue in a three-day workshop in October 2021. We consider the following six jointly developed demands essential steps to leave behind a world worth living in.

Published
2021

37. Dynamics of spin polarization in tilted polariton rings

Author

Mukherjee, S., primary, Kozin, V. K., additional, Nalitov, A. V., additional, Shelykh, I. A., additional, Sun, Z., additional, Myers, D. M., additional, Ozden, B., additional, Beaumariage, J., additional, Steger, M., additional, Pfeiffer, L. N., additional, West, K., additional, and Snoke, D. W., additional

Published
2021
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38. Direct observation of the donor nuclear spin in a near-gap bound exciton transition: [super 31]P in highly enriched [super 28]Si

Author

Thewalt, M.L.W., A. Yang, Steger, M., Karaiskaj, D., Cardona, M, Riemann, H., Abrosimov, N.V., Gusev, A.S., Bulanov, A.D., Kovalev, I D., Kaliteevskii, A K., Godisov, O.N., Becker, P., Pohl, H.J., Haller, E.E., Ager, J.W., III, and Itoh, K.M.

Subjects
Exciton theory -- Research, Spin coupling -- Analysis, Electron donor-acceptor complexes -- Analysis, Physics
Abstract

A report is presented on ultrahigh resolution studies of the bound exciton states associated with the shallow acceptor B and the shallow donor P in highly enriched [super 28]Si by using a tunable single frequency laser to perform photoluminescence exciton spectroscopy. The [super 31]P nuclear spin populations are modified by optical methods and the donors in specific electronic and nuclear spin configurations are selectively photoionized.

Published
2007

39. Effect of optically induced potential on the energy of trapped exciton polaritons below the condensation threshold

Author

Massachusetts Institute of Technology. Department of Chemistry, Pieczarka, M., Boozarjmehr, M., Estrecho, E., Yoon, Yoseob, Steger, M., West, K., Pfeiffer, L. N., Nelson, Keith Adam, Snoke, D. W., Truscott, A. G., Ostrovskaya, E. A., Massachusetts Institute of Technology. Department of Chemistry, Pieczarka, M., Boozarjmehr, M., Estrecho, E., Yoon, Yoseob, Steger, M., West, K., Pfeiffer, L. N., Nelson, Keith Adam, Snoke, D. W., Truscott, A. G., and Ostrovskaya, E. A.

Abstract

Exciton-polaritons (polaritons herein) offer a unique nonlinear platform for studies of collective macroscopic quantum phenomena in a solid-state system. Shaping of polariton flow and polariton confinement via potential landscapes created by nonresonant optical pumping has gained considerable attention due to the flexibility and control enabled by optically induced potentials. Recently, large density-dependent energy shifts (blueshifts) exhibited by optically trapped polaritons at low densities, below the bosonic condensation threshold, were interpreted as an evidence of strong polariton-polariton interactions [Y. Sun, Nat. Phys. 13, 870 (2017)10.1126/science.1074464]. In this work, we further investigate the origins of these blueshifts in optically induced circular traps and present evidence of significant blueshifts of the polariton energy due to reshaping of the optically induced potential with laser pump power. Our work demonstrates the strong influence of the effective potential formed by an optically injected excitonic reservoir on the energy blueshifts observed below and up to the polariton condensation threshold and suggests that the observed blueshifts arise due to interaction of polaritons with the excitonic reservoir, rather than due to polariton-polariton interaction. Keywords: exciton polariton; quantum fluids & solids; quantum wells; photoluminescence

Published
2020

47. Kurt Daluege, die Stennes-Revolten 1930/31 und der Aufstieg der SS.

Author

Steger M. A., Sascha

Subjects
NAZIS, EAST German history, DEPLOYMENT (Military strategy), SOCIAL alienation
Abstract

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Published
2021
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49. Ultrafast control of strong light-matter coupling

Author

Lange, C., Cancellieri, E., Panna, D., Whittaker, D.M., Steger, M., Snoke, D.W., Pfeiffer, L.N., West, K.W., and Hayat, A.

Subjects
Condensed Matter::Quantum Gases, Condensed Matter::Other, Physics::Optics, Physics::Atomic Physics, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect
Abstract

We dynamically modulate strong light–matter coupling in a GaAs/AlGaAs microcavity using intense ultrashort laser pulses tuned below the interband exciton energy, which induce a transient Stark shift of the cavity polaritons. For 225-fs pulses, shorter than the cavity Rabi cycle period of 1000 fs, this shift decouples excitons and cavity photons for the duration of the pulse, interrupting the periodic energy exchange between photonic and electronic states. For 1500-fs pulses, longer than the Rabi cycle period, however, the Stark shift does not affect the strong coupling. The two regimes are marked by distinctly different line shapes in ultrafast reflectivity measurements—regardless of the Stark field intensity. The crossover marks the transition from adiabatic to diabatic switching of strong light–matter coupling.

Published
2018

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