Your search keyword '"Miski-Oglu, M."' showing total 158 results

1. Properties of the eigenmodes and quantum-chaotic scattering in a superconducting microwave Dirac billiard with threefold rotational symmetry

Author

Zhang, Weihua, Zhang, Xiaodong, Che, Jiongning, Miski-Oglu, M., and Dietz, Barbara

Subjects

Physics - Classical Physics

Abstract

We report on experimental studies that were performed with a microwave Dirac billiard (DB), that is, a flat resonator containing metallic cylinders arranged on a triangular grid, whose shape has a threefold rotational C3 symmetry. Its band structure exhibits two Dirac points (DPs) that are separated by a nearly flat band. We present a procedure which we employed to identify eigenfrequencies and to separate the eigenstates according to their transformation properties under rotation by 60 degree into the three C3 subspaces. This allows us to verify previous numerical results of Ref. [W.Zhang and B. Dietz, Phys. Rev. B 104, 064310 (2021)], thus confirming that the properties of the eigenmodes coincide with those of artificial graphene around the lower DP, and are well described by a tight-binding model (TBM) for a honeycomb-kagome lattice of corresponding shape. Above all, we investigate properties of the wave-function components in terms of the fluctuation properties of the measured scattering matrix, which are numerically not accessible. They are compared to random-matrix theory predictions for quantum-chaotic scattering systems exhibiting extended or localized states in the interaction region, that is, the DB. Even in regions, where the wave functions are localized, the spectral properties coincide with those of typical quantum systems with chaotic classical counterpart.

Published

2023

2. Experimental study of closed and open microwave waveguide graphs with preserved and partially violated time-reversal invariance

Author

Zhang, Weihua, Zhang, Xiaodong, Che, Jiongning, Lu, Junjie, Miski-Oglu, M., and Dietz, Barbara

Subjects

Quantum Physics, Nonlinear Sciences - Chaotic Dynamics

Abstract

We report on experiments that were performed with microwave waveguide systems and demonstrate that in the frequency range of a single transversal mode they may serve as a model for closed and open quantum graphs. These consist of bonds that are connected at vertices. On the bonds, they are governed by the one-dimensional Schr\"odinger equation with boundary conditions imposed at the vertices. The resulting transport properties through the vertices may be expressed in terms of a vertex scattering matrix. Quantum graphs with incommensurate bond lengths attracted interest within the field of quantum chaos because, depending on the characteristics of the vertex scattering matrix, its wave dynamic may exhibit features of a typical quantum system with chaotic counterpart. In distinction to microwave networks, which serve as an experimental model of quantum graphs with Neumann boundary conditions, the vertex scattering matrices associated with a waveguide system depend on the wavenumber and the wave functions can be determined experimentally. We analyze the spectral properties of microwave waveguide systems with preserved and partially violated time-reversal invariance, and the properties of the associated wave functions. Furthermore, we study properties of the scattering matrix describing the measurement process within the frame work of random matrix theory for quantum chaotic scattering systems.

Published

2022

3. Partial time-reversal invariance violation in a flat, superconducting microwave cavity with the shape of a chaotic Africa billiard

Author

Dietz, B., Klaus, T., Miski-Oglu, M., Richter, A., and Wunderle, M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

We report on the experimental realization of a flat, superconducting microwave resonator, a microwave billiard, with partially violated time-reversal (T ) invariance, induced by inserting a ferrite into the cavity and magnetizing it with an external magnetic field perpendicular to the resonator plane. In order to prevent its expulsion caused by the Meissner-Ochsenfeld effect we used a cavity of which the top and bottom plate were made from niobium, a superconductor of type II, and cooled it down to liquid-helium temperature T LHe ' 4 K. The Cavity had the shape of a chaotic Afrivca billiard. Superconductivity rendered possible the accurate determination of complete sequences of the resonance frequencies and of the widths and strengths of the resonances, an indispensable prerequisite for the unambiguous detection of T invariance violation, especially when it is only partially violated. This allows for the first time the precise specification of the size of T invariance violation from the fluctuation properties of the resonance frequencies and from the strength distribution, which actually depends sensitively on it and thus provides a most suitable measure. For this purpose we derived an analytical expression for the latter which is valid for isolated resonances in the range from no T invariance violation to complete violation.

Published

2019

4. An Alternating Phase Focusing injector for heavy ion acceleration

Author

Lauber, S., Yaramyshev, S., Basten, M., Aulenbacher, K., Barth, W., Burandt, C., Droba, M., Dziuba, F., Forck, P., Gettmann, V., Kuerzeder, T., List, J., Miski-Oglu, M., Podlech, H., Rubin, A., and Schwarz, M.

Published

2022

5. Spectral properties of Dirac billiards at the van Hove singularities

Author

Dietz, B., Klaus, T., Miski-Oglu, M., Richter, A., Wunderle, M., and Bouazza, C.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We study distributions of the ratios of level spacings of a rectangular and an Africa-shaped superconducting microwave resonator containing circular scatterers on a triangular grid, so-called Dirac billiards (DBs). The high-precision measurements allowed the determination of all 1651 and 1823 eigenfrequencies in the first two bands, respectively. The resonance densities are similar to that of graphene. They exhibit two sharp peaks at the van Hove singularities, that separate the band structure into regions with a linear and a quadratic dispersion relation, respectively. In their vicinity we observe rapid changes, e.g., in the wavefunction structure. Accordingly, the question arose, whether there the spectral properties are still determined by the shapes of the DBs. The commonly used statistical measures, however, are no longer applicable whereas, as demonstrated in this Letter, the ratio distributions provide most suitable ones.

Published

2015

6. Algebraic theory of crystal vibrations: Singularities and zeros in vibrations of 1D and 2D lattices

Author

Iachello, F., Dietz, B., Miski-Oglu, M., and Richter, A.

Subjects

Condensed Matter - Other Condensed Matter, Quantum Physics

Abstract

A novel method for the calculation of the energy dispersion relation (EDR) and density of states (DOS) in one (1D) and two (2D) dimensions is introduced and applied to linear lattices (1D) and square and hexagonal lattices (2D). The (van Hove) singularities and (Dirac) zeros of the DOS are discussed. Results for the 2D hexagonal lattice (graphene-like materials) are compared with experimental data in microwave photonic crystals.

Published

2015

7. Test of the Atiyah-Singer Index Theorem for Fullerene with a Superconducting Microwave Resonator

Author

Dietz, B., Klaus, T., Miski-Oglu, M., Richter, A., Bischoff, M., von Smekal, L., and Wambach, J.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Nuclear Experiment, Nuclear Theory, Quantum Physics

Abstract

Experiments have been performed using a spherical superconducting microwave resonator that simulates the geometric structure of the C60 fullerene molecule. The objective was to study with very high resolution the exceptional spectral properties emerging from the symmetries of the icosahedral structure of the carbon lattice. In particular, the number of zero modes has been determined to test the predictions of the Atiyah-Singer index theorem, which relates it to the topology of the curved carbon lattice. This is, to the best of our knowledge, the first experimental verification of the index theorem.

Published

2015

8. Reference beam dynamics layout for the SC CW heavy ion HELIAC at GSI

Author

Schwarz, M., Yaramyshev, S., Aulenbacher, K., Barth, W., Basten, M., Busch, M., Burandt, C., Conrad, T., Dziuba, F., Gettmann, V., Gusarova, M., Heilmann, M., Khabibullina, E., Kulevoy, T., Kuerzeder, T., Lauber, S., List, J., Miski-Oglu, M., Podlech, H., Polozov, S., Rubin, A., Taletskiy, K., and Ziiatdinova, A.

Published

2020

9. Spectral Properties and Dynamical Tunneling in Constant-Width Billiards

Author

Dietz, B., Guhr, T., Gutkin, B., Miski-Oglu, M., and Richter, A.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

We determine with unprecedented accuracy the lowest 900 eigenvalues of two quantum constant-width billiards from resonance spectra measured with flat, superconducting microwave resonators. While the classical dynamics of the constant-width billiards is unidirectional, a change of the direction of motion is possible in the corresponding quantum system via dynamical tunneling. This becomes manifest in a splitting of the vast majority of resonances into doublets of nearly degenerate ones. The fluctuation properties of the two respective spectra are demonstrated to coincide with those of a random-matrix model for systems with violated time-reversal invariance and a mixed dynamics. Furthermore, we investigate tunneling in terms of the splittings of the doublet partners. On the basis of the random-matrix model we derive an analytical expression for the splitting distribution which is generally applicable to systems exhibiting dynamical tunneling between two regions with (predominantly) chaotic dynamics.

Published

2014

10. Dielectric Square Resonator Investigated with Microwave Experiments

Author

Bittner, S., Bogomolny, E., Dietz, B., Miski-Oglu, M., and Richter, A.

Subjects

Physics - Optics

Abstract

We present a detailed experimental study of the symmetry properties and the momentum space representation of the field distributions of a dielectric square resonator as well as the comparison with a semiclassical model. The experiments have been performed with a flat ceramic microwave resonator. Both the resonance spectra and the field distributions were measured. The momentum space representations of the latter evidenced that the resonant states are each related to a specific classical torus, leading to the regular structure of the spectrum. Furthermore, they allow for a precise determination of the refractive index. Measurements with different arrangements of the emitting and the receiving antennas were performed and their influence on the symmetry properties of the field distributions was investigated in detail, showing that resonances with specific symmetries can be selected purposefully. In addition, the length spectrum deduced from the measured resonance spectra and the trace formula for the dielectric square resonator are discussed in the framework of the semiclassical model., Comment: 20 pages, 13 figures, 3 tables

Published

2014

11. Scattering Experiments with Microwave Billiards at an Exceptional Point under Broken Time Reversal Invariance

Author

Bittner, S., Dietz, B., Harney, H. L., Miski-Oglu, M., Richter, A., and Schäfer, F.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

Scattering experiments with microwave cavities were performed and the effects of broken time-reversal invariance (TRI), induced by means of a magnetized ferrite placed inside the cavity, on an isolated doublet of nearly degenerate resonances were investigated. All elements of the effective Hamiltonian of this two-level system were extracted. As a function of two experimental parameters, the doublet and also the associated eigenvectors could be tuned to coalesce at a so-called exceptional point (EP). The behavior of the eigenvalues and eigenvectors when encircling the EP in parameter space was studied, including the geometric amplitude that builds up in the case of broken TRI. A one-dimensional subspace of parameters was found where the differences of the eigenvalues are either real or purely imaginary. There, the Hamiltonians were found PT-invariant under the combined operation of parity (P) and time reversal (T) in a generalized sense. The EP is the point of transition between both regions. There a spontaneous breaking of PT occurs.

Published

2014

12. Experimental Observation of Localized Modes in a Dielectric Square Resonator

Author

Bittner, S., Bogomolny, E., Dietz, B., Miski-Oglu, M., and Richter, A.

Subjects

Physics - Optics

Abstract

We investigated the frequency spectra and field distributions of a dielectric square resonator in a microwave experiment. Since such systems cannot be treated analytically, the experimental studies of their properties are indispensable. The momentum representation of the measured field distributions shows that all resonant modes are localized on specific classical tori of the square billiard. Based on these observations a semiclassical model was developed. It shows excellent agreement with all but a single class of measured field distributions that will be treated separately., Comment: 6 pages, 5 figures, 1 table

Published

2013

13. Lifshitz and Excited State Quantum Phase Transitions in Microwave Dirac Billiards

Author

Dietz, B., Miski-Oglu, M., Pietralla, N., Richter, A., von Smekal, L., Wambach, J., and Iachello, F.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons, Nuclear Experiment, Nuclear Theory

Abstract

We present experimental results for the density of states (DOS) of a superconducting microwave Dirac billiard which serves as an idealized model for the electronic properties of graphene. The DOS exhibits two sharp peaks which evolve into van Hove singularities with increasing system size. They divide the band structure into regions governed by the \emph{relativistic} Dirac equation and by the \emph{non-relativistic} Schr\"odinger equation, respectively. We demonstrate that in the thermodynamic limit a topological transition appears as a neck-disrupting Lifshitz transition in the number susceptibility and as an excited state transition in the electronic excitations. Furthermore, we recover the finite-size scaling typical for excited state quantum phase transitions involving logarithmic divergences and identify a quasi-order parameter.

Published

2013

14. Bound States in Sharply Bent Waveguides: Analytical and Experimental Approach

Author

Bittner, S., Dietz, B., Miski-Oglu, M., Richter, A., Ripp, C., Sadurni, E., and Schleich, W. P.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Nonlinear Sciences - Chaotic Dynamics

Abstract

Quantum wires and electromagnetic waveguides possess common features since their physics is described by the same wave equation. We exploit this analogy to investigate experimentally with microwave waveguides and theoretically with the help of an effective potential approach the occurrence of bound states in sharply bent quantum wires. In particular, we compute the bound states, study the features of the transition from a bound to an unbound state caused by the variation of the bending angle and determine the critical bending angles at which such a transition takes place. The predictions are confirmed by calculations based on a conventional numerical method as well as experimental measurements of the spectra and electric field intensity distributions of electromagnetic waveguides.

Published

2013

15. Trace formula for chaotic dielectric resonators tested with microwave experiments

Author

Bittner, S., Dietz, B., Dubertrand, R., Isensee, J., Miski-Oglu, M., and Richter, A.

Subjects

Physics - Optics, Nonlinear Sciences - Chaotic Dynamics

Abstract

We measured the resonance spectra of two stadium-shaped dielectric microwave resonators and tested a semiclassical trace formula for chaotic dielectric resonators proposed by Bogomolny et al. [Phys. Rev. E 78, 056202 (2008)]. We found good qualitative agreement between the experimental data and the predictions of the trace formula. Deviations could be attributed to missing resonances in the measured spectra in accordance with previous experiments [Phys. Rev. E 81, 066215 (2010)]. The investigation of the numerical length spectrum showed good qualitative and reasonable quantitative agreement with the trace formula. It demonstrated, however, the need for higher-order corrections of the trace formula. The application of a curvature correction to the Fresnel reflection coefficients entering the trace formula yielded better agreement, but deviations remained, indicating the necessity of further investigations., Comment: 9 pages, 8 figures

Published

2012

16. Application of a trace formula to the spectra of flat three-dimensional dielectric resonators

Author

Bittner, S., Bogomolny, E., Dietz, B., Miski-Oglu, M., and Richter, A.

Subjects

Physics - Optics

Abstract

The length spectra of flat three-dimensional dielectric resonators of circular shape were determined from a microwave experiment. They were compared to a semiclassical trace formula obtained within a two-dimensional model based on the effective index of refraction approximation and a good agreement was found. It was necessary to take into account the dispersion of the effective index of refraction for the two-dimensional approximation. Furthermore, small deviations between the experimental length spectrum and the trace formula prediction were attributed to the systematic error of the effective index of refraction approximation. In summary, the methods developed in this article enable the application of the trace formula for two-dimensional dielectric resonators also to realistic, flat three-dimensional dielectric microcavities and -lasers, allowing for the interpretation of their spectra in terms of classical periodic orbits., Comment: 13 pages, 12 figures, 1 table

Published

2011

17. Extremal transmission through a microwave photonic crystal and the observation of edge states in a rectangular Dirac billiard

Author

Bittner, S., Dietz, B., Miski-Oglu, M., and Richter, A.

Subjects

Condensed Matter - Other Condensed Matter, Nonlinear Sciences - Chaotic Dynamics

Abstract

This article presents experimental results on properties of waves propagating in an unbounded and a bounded photonic crystal consisting of metallic cylinders which are arranged in a triangular lattice. First, we present transmission measurements of plane waves traversing a photonic crystal. The experiments are performed in the vicinity of a Dirac point, i.e., an isolated conical singularity of the photonic band structure. There, the transmission shows a pseudodiffusive 1/L dependence, with $L$ being the thickness of the crystal, a phenomenon also observed in graphene. Second, eigenmode intensity distributions measured in a microwave analog of a relativistic Dirac billiard, a rectangular microwave billiard that contains a photonic crystal, are discussed. Close to the Dirac point states have been detected which are localized at the straight edge of the photonic crystal corresponding to a zigzag edge in graphene.

Published

2011

18. PT symmetry and spontaneous symmetry breaking in a microwave billiard

Author

Bittner, S., Dietz, B., Guenther, U., Harney, H. L., Miski-Oglu, M., Richter, A., and Schaefer, F.

Subjects

Quantum Physics, Mathematical Physics

Abstract

We demonstrate the presence of parity-time (PT) symmetry for the non-Hermitian two-state Hamiltonian of a dissipative microwave billiard in the vicinity of an exceptional point (EP). The shape of the billiard depends on two parameters. The Hamiltonian is determined from the measured resonance spectrum on a fine grid in the parameter plane. After applying a purely imaginary diagonal shift to the Hamiltonian, its eigenvalues are either real or complex conjugate on a curve, which passes through the EP. An appropriate basis choice reveals its PT symmetry. Spontaneous symmetry breaking occurs at the EP.

Published

2011

19. Double-Slit Experiments with Microwave Billiards

Author

Bittner, S., Dietz, B., Miski-Oglu, M., Iriarte, P. Oria, Richter, A., and Schäfer, F.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

Single and double-slit experiments are performed with two microwave billiards with the shapes of a rectangle, respectively, a quarter stadium. The classical dynamics of the former is regular, that of the latter is chaotic. Microwaves can leave the billiards via slits in the boundary, forming interference patterns on a screen. The aim is to determine the effect of the billiard dynamics on their structure. For this the development of a method for the construction of a directed wave packet by means of an array of multiple antennas was crucial. The interference patterns show a sensitive dependence not only on the billiard dynamics but also on the initial position and direction of the wave packet., Comment: 13 pages, 14 figures

Published

2011

20. Exceptional Points in a Microwave Billiard with Time-Reversal Invariance Violation

Author

Dietz, B., Harney, H. L., Kirillov, O. N., Miski-Oglu, M., Richter, A., and Schaefer, F.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Condensed Matter - Other Condensed Matter, Mathematical Physics, Quantum Physics

Abstract

We report on the experimental study of an exceptional point (EP) in a dissipative microwave billiard with induced time-reversal invariance (T) violation. The associated two-state Hamiltonian is non-Hermitian and non-symmetric. It is determined experimentally on a narrow grid in a parameter plane around the EP. At the EP the size of T violation is given by the relative phase of the eigenvector components. The eigenvectors are adiabatically transported around the EP, whereupon they gather geometric phases and in addition geometric amplitudes different from unity.

Published

2010

21. Experimental test of a trace formula for two-dimensional dielectric resonators

Author

Bittner, S., Bogomolny, E., Dietz, B., Miski-Oglu, M., Iriarte, P. Oria, Richter, A., and Schäfer, F.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

Resonance spectra of two-dimensional dielectric microwave resonators of circular and square shapes have been measured. The deduced length spectra of periodic orbits were analyzed and a trace formula for dielectric resonators recently proposed by Bogomolny et al. [Phys. Rev. E 78, 056202 (2008)] was tested. The observed deviations between the experimental length spectra and the predictions of the trace formula are attributed to a large number of missing resonances in the measured spectra. We show that by taking into account the systematics of observed and missing resonances the experimental length spectra are fully understood. In particular, a connection between the most long-lived resonances and certain periodic orbits is established experimentally., Comment: 14 pages, 12 figures, 1 table

Published

2010

22. Observation of a Dirac point in microwave experiments with a photonic crystal modeling graphene

Author

Bittner, S., Dietz, B., Miski-Oglu, M., Iriarte, P. Oria, Richter, A., and Schaefer, F.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Nonlinear Sciences - Chaotic Dynamics

Abstract

We present measurements of transmission and reflection spectra of a microwave photonic crystal composed of 874 metallic cylinders arranged in a triangular lattice. The spectra show clear evidence of a Dirac point, a characteristic of a spectrum of relativistic massless fermions. In fact, Dirac points are a peculiar property of the electronic band structure of graphene, whose properties consequently can be described by the relativistic Dirac equation. In the vicinity of the Dirac point, the measured reflection spectra resemble those obtained by conductance measurements in scanning tunneling microscopy of graphene flakes.

Published

2010

23. Quantum Chaotic Scattering in Microwave Resonators

Author

Dietz, B., Friedrich, T., Harney, H. L., Miski-Oglu, M., Richter, A., Schaefer, F., and Weidenmueller, H. A.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

In a frequency range where a microwave resonator simulates a chaotic quantum billiard, we have measured moduli and phases of reflection and transmission amplitudes in the regimes of both isolated and of weakly overlapping resonances and for resonators with and without time-reversal invariance. Statistical measures for S-matrix fluctuations were determined from the data and compared with extant and/or newly derived theoretical results obtained from the random-matrix approach to quantum chaotic scattering. The latter contained a small number of fit parameters. The large data sets taken made it possible to test the theoretical expressions with unprecedented accuracy. The theory is confirmed by both, a goodness-of-fit-test and the agreement of predicted values for those statistical measures that were not used for the fits, with the data.

Published

2009

24. Friedel Oscillations in Microwave Billiards

Author

Baecker, A., Dietz, B., Friedrich, T., Miski-Oglu, M., Richter, A., Schaefer, F., and Tomsovic, S.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

Friedel oscillations of electron densities near step edges have an analog in microwave billiards. A random plane wave model, normally only appropriate for the eigenfunctions of a purely chaotic system, can be applied and is tested for non-purely-chaotic dynamical systems with measurements on pseudo-integrable and mixed dynamics geometries. It is found that the oscillations in the pseudo-integrable microwave cavity matches the random plane-wave modeling. Separating the chaotic from the regular states for the mixed system requires incorporating an appropriate phase space projection into the modeling in multiple ways for good agreement with experiment.

Published

2009

25. Nonperiodic echoes from quantum mushroom billiard hats

Author

Dietz, B., Friedrich, T., Miski-Oglu, M., Richter, A., Schäfer, F., and Seligmann, T. H.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

Nonperiodic tunable quantum echoes have been observed in experiments with an open microwave billiard whose geometry under certain conditions provides Fibonacci like sequences of classical delay times. These sequences combined with the reflection at the opening induced by the wave character of the experiment and the size of the opening allow to shape quantum pulses. The pulses are obtained by response of an integrable scattering system.

Published

2009

26. Experimental Test of a Two-dimensional Approximation for Dielectric Microcavities

Author

Bittner, S., Dietz, B., Miski-Oglu, M., Iriarte, P. Oria, Richter, A., and Schäfer, F.

Subjects

Physics - Optics

Abstract

Open dielectric resonators of different shapes are widely used for the manufacture of microlasers. A precise determination of their resonance frequencies and widths is crucial for their design. Most microlasers have a flat cylindrical geometry, and a two-dimensional approximation, the so-called method of the effective index of refraction, is commonly employed for numerical calculations. Our aim has been an experimental test of the precision and applicability of a model based on this approximation. We performed very thorough and accurate measurements of the resonance frequencies and widths of two passive circular dielectric microwave resonators and found significant deviations from the model predictions. From this we conclude that the model generally fails in the quantitative description of three-dimensional dielectric resonators., Comment: 10 pages, 13 figures

Published

2009

27. Induced Violation of Time-Reversal Invariance in the Regime of Weakly Overlapping Resonances

Author

Dietz, B., Friedrich, T., Harney, H. L., Miski-Oglu, M., Richer, A., Schaefer, F., Verbaarschot, J., and Weidenmueller, H. A.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Condensed Matter - Other Condensed Matter

Abstract

We measure the complex scattering amplitudes of a flat microwave cavity (a "chaotic billiard"). Time-reversal T-invariance is partially broken by a magnetized ferrite placed within the cavity. We extend the random-matrix approach to T-violation in scattering, fit some of the properties of the scattering amplitudes, and then successfully predict others. Our work constitutes the most precise test of the theoretical approach to T-violation within the framework of random-matrix theory so far available.

Published

2009

28. Chaotic Scattering in the Regime of Weakly Overlapping Resonances

Author

Dietz, B., Friedrich, T., Harney, H. L., Miski-Oglu, M., Richter, A., Schaefer, F., and Weidenmueller, H. A.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Nuclear Theory

Abstract

We measure the transmission and reflection amplitudes of microwaves in a resonator coupled to two antennas at room temperature in the regime of weakly overlapping resonances and in a frequency range of 3 to 16 GHz. Below 10.1 GHz the resonator simulates a chaotic quantum system. The distribution of the elements of the scattering matrix S is not Gaussian. The Fourier coefficients of S are used for a best fit of the autocorrelation function if S to a theoretical expression based on random--matrix theory. We find very good agreement below but not above 10.1 GHz.

Published

2008

29. Superscars in billiards -- A model for doorway states in quantum spectra

Author

Åberg, S., Guhr, T., Miski-Oglu, M., and Richter, A.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

In a unifying way, the doorway mechanism explains spectral properties in a rich variety of open mesoscopic quantum systems, ranging from atoms to nuclei. A distinct state and a background of other states couple to each other which sensitively affects the strength function. The recently measured superscars in the barrier billiard provide an ideal model for an in--depth investigation of this mechanism. We introduce two new statistical observables, the full distribution of the maximum coupling coefficient to the doorway and directed spatial correlators. Using Random Matrix Theory and random plane waves, we obtain a consistent understanding of the experimental data., Comment: 4 Pages, 4 figures

Published

2008

30. Spectral properties of Bunimovich mushroom billiards

Author

Dietz, B., Friedrich, T., Miski-Oglu, M., Richter, A., and Schaefer, F.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Condensed Matter - Statistical Mechanics, Quantum Physics

Abstract

Properties of a quantum mushroom billiard in the form of a superconducting microwave resonator have been investigated. They reveal unexpected nonuniversal features such as, e.g., a supershell effect in the level density and a dip in the nearest-neighbor spacing distribution. Theoretical predictions for the quantum properties of mixed systems rely on the sharp separability of phase space - an unusual property met by mushroom billiards. We however find deviations which are ascribed to the presence of dynamic tunneling., Comment: 4 pages, 7 .eps-figures

Published

2007

31. Induced Time-Reversal Symmetry Breaking Observed in Microwave Billiards

Author

Dietz, B., Friedrich, T., Harney, H. L., Miski-Oglu, M., Richter, A., Schaefer, F., and Weidenmueller, H. A.

Subjects

Condensed Matter - Other Condensed Matter

Abstract

Using reciprocity, we investigate the breaking of time-reversal (T) symmetry due to a ferrite embedded in a flat microwave billiard. Transmission spectra of isolated single resonances are not sensitive to T-violation whereas those of pairs of nearly degenerate resonances do depend on the direction of time. For their theoretical description a scattering matrix model from nuclear physics is used. The T-violating matrix elements of the effective Hamiltonian for the microwave billiard with the embedded ferrite are determined experimentally as functions of the magnetization of the ferrite., Comment: 4 pages, 4 figures

Published

2007

32. Rabi Oscillations at Exceptional Points in Microwave Billiards

Author

Dietz, B., Friedrich, T., Metz, J., Miski-Oglu, M., Richter, A., Schäfer, F., and Stafford, C. A.

Subjects

Condensed Matter - Other Condensed Matter, Physics - Data Analysis, Statistics and Probability

Abstract

We experimentally investigated the decay behavior with time t of resonances near and at exceptional points, where two complex eigenvalues and also the associated eigenfunctions coalesce. The measurements were performed with a dissipative microwave billiard, whose shape depends on two parameters. The t^2-dependence predicted at the exceptional point on the basis of a two-state matrix model could be verified. Outside the exceptional point the predicted Rabi oscillations, also called quantum echoes in this context, were detected. To our knowledge this is the first time that quantum echoes related to exceptional points were observed experimentally., Comment: 10 pages, 3 figures

Published

2006

33. First Experimental Observation of Superscars in a Pseudointegrable Barrier Billiard

Author

Bogomolny, E., Dietz, B., Friedrich, T., Miski-Oglu, M., Richter, A., Schaefer, F., and Schmit, C.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Condensed Matter - Statistical Mechanics, Physics - Optics

Abstract

With a perturbation body technique intensity distributions of the electric field strength in a flat microwave billiard with a barrier inside up to mode numbers as large as about 700 were measured. A method for the reconstruction of the amplitudes and phases of the electric field strength from those intensity distributions has been developed. Recently predicted superscars have been identified experimentally and - using the well known analogy between the electric field strength and the quantum mechanical wave function in a two-dimensional microwave billiard - their properties determined., Comment: 4 pages, 5 .eps figures

Published

2006

34. Nonperiodic echoes from mushroom billiard hats

Author

Dietz, B., Friedrich, T., Miski-Oglu, M., Richter, A., Seligman, T. H., and Zapfe, K.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Condensed Matter - Statistical Mechanics, Mathematical Physics

Abstract

Mushroom billiards have the remarkable property to show one or more clear cut integrable islands in one or several chaotic seas, without any fractal boundaries. The islands correspond to orbits confined to the hats of the mushrooms, which they share with the chaotic orbits. It is thus interesting to ask how long a chaotic orbit will remain in the hat before returning to the stem. This question is equivalent to the inquiry about delay times for scattering from the hat of the mushroom into an opening where the stem should be. For fixed angular momentum we find that no more than three different delay times are possible. This induces striking nonperiodic structures in the delay times that may be of importance for mesoscopic devices and should be accessible to microwave experiments., Comment: Submitted to Phys. Rev. E without the appendix

Published

2006

35. First experimental evidence for quantum echoes in scattering systems

Author

Dembowski, C., Dietz, B., Friedrich, T., Graef, H. -D., Heine, A., Mejia-Monasterio, C., Miski-Oglu, M., Richter, A., and Seligman, T. H.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

A self-pulsing effect termed quantum echoes has been observed in experiments with an open superconducting and a normal conducting microwave billiard whose geometry provides soft chaos, i.e. a mixed phase space portrait with a large stable island. For such systems a periodic response to an incoming pulse has been predicted. Its period has been associated to the degree of development of a horseshoe describing the topology of the classical dynamics. The experiments confirm this picture and reveal the topological information., Comment: RevTex 4.0, 5 eps-figures

Published

2004

36. Phase shift experiments identifying Kramers doublets in a chaotic superconducting microwave billiard of threefold symmetry

Author

Dembowski, C., Dietz, B., Graef, H. -D., Heine, A., Leyvraz, F., Miski-Oglu, M., Richter, A., and Seligman, T. H.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

The spectral properties of a two-dimensional microwave billiard showing threefold symmetry have been studied with a new experimental technique. This method is based on the behavior of the eigenmodes under variation of a phase shift between two input channels, which strongly depends on the symmetries of the eigenfunctions. Thereby a complete set of 108 Kramers doublets has been identified by a simple and purely experimental method. This set clearly shows Gaussian unitary ensemble statistics, although the system is time-reversal invariant., Comment: RevTex 4, 5 figures

Published

2002

37. RF-Acceleration Studies for the HBS-Linac Applying Alternating Phase Focusing Concepts.

Author

Lauber, S., Barth, W., Basten, M., Burandt, C., Droba, M., Dziuba, F., Forck, P., Gettmann, V., Gutberlet, T., Kürzeder, T., List, J., Miski-Oglu, M., Podlech, H., Schwarz, M., and Yaramyshev, S.

Published

2023

38. Advanced basic layout of the HElmholtz LInear Accelerator for cw heavy ion beams at GSI.

Author

Barth, W, Basten, M, Burandt, C., Conrad, T., Dziuba, F, Gettmann, V, Kürzeder, T, Lauber, S., List, J., Miski-Oglu, M, Podlech, H., Scheeler, U., Schwarz, M, and Yaramyshev, S

Published

2023

39. High current heavy ion beam investigations at GSI-UNILAC

Author

Vormann, H, primary, Barth, W, additional, Miski-Oglu, M, additional, Scheeler, U, additional, Vossberg, M, additional, and Yaramyshev, S, additional

Published

2023

40. Experimental study of closed and open microwave waveguide graphs with preserved and partially violated time-reversal invariance

Author

Zhang, Weihua, primary, Zhang, Xiaodong, additional, Che, Jiongning, additional, Lu, Junjie, additional, Miski-Oglu, M., additional, and Dietz, Barbara, additional

Published

2022

41. Continuous wave interdigital H-mode cavities for alternating phase focusing heavy ion acceleration

Author

Basten, M., primary, Aulenbacher, K., additional, Barth, W., additional, Burandt, C., additional, Dziuba, F., additional, Gettmann, V., additional, Kürzeder, T., additional, Lauber, S., additional, List, J., additional, Miski-Oglu, M., additional, and Yaramyshev, S., additional

Published

2022

42. High brilliance beam investigations at the universal linear accelerator

Author

Barth, W., primary, Scheeler, U., additional, Vormann, H., additional, Miski-Oglu, M., additional, Vossberg, M., additional, and Yaramyshev, S., additional

Published

2022

43. High brilliance beam investigations at the universal linear accelerator

Author

Barth, Winfried, Scheeler, U., Vormann, H., Miski-Oglu, M., Vossberg, M., and Yaramyshev, S.

Subjects

Nuclear and High Energy Physics, Physics and Astronomy (miscellaneous), ddc:530, Surfaces and Interfaces

Abstract

Physical review accelerators and beams 25(4), 040101 (2022). doi:10.1103/PhysRevAccelBeams.25.040101, Published by American Physical Society, College Park, MD

Published

2022

44. A dynamic collimation and alignment system for the Helmholtz linear accelerator

Author

Lauber, S., primary, Aulenbacher, K., additional, Barth, W., additional, Basten, M., additional, Burandt, C., additional, Dziuba, F., additional, Forck, P., additional, Gettmann, V., additional, Heilmann, M., additional, Kürzeder, T., additional, List, J., additional, Miski-Oglu, M., additional, Podlech, H., additional, Rubin, A., additional, Schwarz, M., additional, Sieber, T., additional, and Yaramyshev, S., additional

Published

2021

45. LINAC developments for heavy ion operation at GSI and FAIR

Author

Barth, W., primary, Hollinger, R., additional, Adonin, A., additional, Miski-Oglu, M., additional, Scheeler, U., additional, and Vormann, H., additional

Published

2020

46. Longitudinal phase space reconstruction for a heavy ion accelerator

Author

Lauber, S., primary, Aulenbacher, K., additional, Barth, W., additional, Dziuba, F., additional, List, J., additional, Burandt, C., additional, Gettmann, V., additional, Kürzeder, T., additional, Miski-Oglu, M., additional, Forck, P., additional, Heilmann, M., additional, Rubin, A., additional, Sieber, T., additional, Yaramyshev, S., additional, Podlech, H., additional, and Schwarz, M., additional

Published

2020

47. First acceleration of heavy ion beams with a superconducting continuous wave HIM/GSI CW-linac

Author

Basten, M., primary, Aulenbacher, K., additional, Barth, W., additional, Busch, M., additional, Dziuba, F., additional, Gettmann, V., additional, Heilmann, M., additional, Kürzeder, T., additional, Lauber, S., additional, Miski-Oglu, M., additional, Podlech, H., additional, Rubin, A., additional, Schnase, A., additional, Schwarz, M., additional, and Yaramyshev, S., additional

Published

2020

48. Cleanroom installations for SRF cavities at the Helmholtz Institute Mainz

Author

Kürzeder, T, primary, Aulenbacher, K, additional, Barth, W, additional, Burandt, C, additional, Conrad, J, additional, Dziuba, F, additional, Gettmann, V, additional, Heine, R, additional, Hug, F, additional, Lauber, S, additional, List, J, additional, Miski-Oglu, M, additional, Stengler, T, additional, and Yaramyshev, S, additional

Published

2019

49. Further RF measurements on the superconducting 217 MHz CH demonstrator cavity for a CW linac at GSI

Author

Dziuba, F, primary, Aulenbacher, K, additional, Barth, W, additional, Basten, M, additional, Burandt, C, additional, Busch, M, additional, Conrad, T, additional, Gettmann, V, additional, Heilmann, M, additional, Kürzeder, T, additional, Lauber, S, additional, List, J, additional, Miski-Oglu, M, additional, Podlech, H, additional, Salvatore, J, additional, Schnase, A, additional, Schwarz, M, additional, and Yaramyshev, S, additional

Published

2019

50. Beam commissioning of the demonstrator setup for the superconducting continuous wave HIM/GSI-Linac

Author

Miski-Oglu, M, primary, Aulenbacher, K, additional, Barth, W, additional, Basten, M, additional, Burandt, C, additional, Busch, M, additional, Conrad, T, additional, Dziuba, F, additional, Gettmann, V, additional, Heilmann, M, additional, Kuerzeder, T, additional, List, J, additional, Lauber, S, additional, Podlech, H, additional, Rubin, A, additional, Schnase, A, additional, Schwarz, M, additional, and Yaramyshev, S, additional

Published

2019