Your search keyword '"Karbstein, Felix"' showing total 309 results

1. Phase transition analogues in laser collisions with a dark-field setup

Author

Gies, Holger, Karbstein, Felix, and Maiwald, Lars

Subjects

High Energy Physics - Phenomenology, Quantum Physics

Abstract

Laser pulse collisions are a promising tool for the investigation of light-by-light scattering phenomena induced by quantum vacuum fluctuations. Using the numerical code based on the vacuum emission picture and put forward in Blinne et al. (2019), we observe a strong dependence of the signal features on the transverse profiles of the colliding laser pulses in the interaction region. For a probe beam tailored such as to feature an annular far-field profile and a pronounced on-axis focus peak counterpropagating a pump beam at zero impact parameter, the signal's main emission direction can undergo the analogue of a phase transition with the beam waist ratio of the pulses serving as a control parameter. Depending on the pump's beam profile, this phase transition can be first order (e.g., for a pump with flat top far-field profile) or second order (e.g., for a Gaussian pump). From the simulation data, we determine the critical point and extract the corresponding critical exponent for the second order transition of the main emission direction of the signal in the far field. For this, we improve the performance of the above numerical code, using the phase transition analogues as an example to illustrate the capabilities and limitations of the code and current workflows., Comment: 16 pages, 12 figures

Published

2024

2. Impact of background field localization on vacuum polarization effects

Author

Marmier, Carl, Seegert, Nico, and Karbstein, Felix

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory, Quantum Physics

Abstract

We aim at insights about how localization of the background field impacts nonlinear quantum vacuum signatures probed by photons in purely magnetic, electric and crossed fields. The starting point of our study are the one-loop results for the Heisenberg-Euler effective Lagrangian and the photon polarization tensor in quantum electrodynamics (QED) evaluated in a uniform constant electromagnetic field. As is well known and often employed, especially in the weak-field limit, within certain restrictions these results also allow for the reliable analysis of vacuum polarization effects in slowly varying background fields. Here, our main interest is in manifestly non-perturbative effects. To this end, we make use of the fact that for the particular case of background field inhomogeneities of Lorentzian shape with $0\leq d\leq3$ inhomogeneous directions analytical insights are possible. We study the scaling of conventional nonlinear QED signatures, such as probe-photon polarization flip and probe-photon induced electron-positron pair production, with relevant parameters. Special attention is put on the $d$ dependence of the considered effects., Comment: 18 pages

Published

2024

3. Numerical optimization of quantum vacuum signals

Author

Valialshchikov, Maksim, Karbstein, Felix, Seipt, Daniel, and Zepf, Matt

Subjects

High Energy Physics - Phenomenology, Physics - Optics

Abstract

The identification of prospective scenarios for observing quantum vacuum signals in high-intensity laser experiments requires both accurate theoretical predictions and the exploration of high-dimensional parameter spaces. Numerical simulations address the first requirement, while optimization provides an efficient solution for the second one. In the present work, we demonstrate the potential of Bayesian optimization in maximizing photonic quantum vacuum signals on the example of two-beam collisions. This allows us to find the optimal waist sizes for beams with elliptic cross sections, and to identify the specific physical process leading to a discernible signal in a coherent harmonic focusing configuration scenario., Comment: 9 pages, 7 figures

Published

2024

4. A dark-field setup for the measurement of light-by-light scattering with high-intensity lasers

Author

Schütze, Fabian, Doyle, Leonard, Schreiber, Jörg, Zepf, Matt, and Karbstein, Felix

Subjects

Physics - Optics, High Energy Physics - Phenomenology, Quantum Physics

Abstract

We put forward a concrete experimental setup allowing to measure light-by-light scattering in the collision of two optical high-intensity laser beams at state-of-the-art high-field facilities operating petawatt class laser systems. Our setup uses the same focusing optics for both laser beams to be collided and employs a dark-field approach for the detection of the single-photon-level nonlinear quantum vacuum response in the presence of a large background. Based on an advanced modeling of the colliding laser fields, we in particular provide reliable estimates for the prospective numbers of signal photons scattered into the dark-field for various laser polarizations., Comment: 26 pages, 5 figures; matches accepted journal version

Published

2024

5. Towards the full Heisenberg-Euler effective action at large $N$

Author

Karbstein, Felix

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We study the Heisenberg-Euler effective action in constant electromagnetic fields $\bar{F}$ for QED with $N$ charged particle flavors of the same mass and charge $e$ in the large $N$ limit characterized by sending $N\to\infty$ while keeping $Ne^2\sim e\bar{F}\sim N^0$ fixed. This immediately implies that contributions that scale with inverse powers of $N$ can be neglected and the resulting effective action scales linearly with $N$. Interestingly, due to the presence of one-particle reducible diagrams, even in this limit the Heisenberg-Euler effective action receives contributions of arbitrary loop order. In particular for the special cases of electric- and magnetic-like field configurations we construct an explicit expression for the associated effective Lagrangian that, upon extremization for two constant scalar coefficients, allows to evaluate its full, all-order result at arbitrarily large field strengths. We demonstrate that our manifestly nonperturbative expression correctly reproduces the known results for the Heisenberg-Euler effective action at large $N$, namely its all-loop strong field limit and its low-order perturbative expansion in powers of the fine-structure constant., Comment: 19 pages, 1 figure

Published

2023

6. Two-beam laser photon merging

Author

Sundqvist, Chantal and Karbstein, Felix

Subjects

Physics - Optics, High Energy Physics - Phenomenology

Abstract

Quasi-elastic scattering processes have long been thought of providing the most promising signal for a first experimental detection of quantum vacuum nonlinearity. A prominent example of such a process is vacuum birefringence. However, these signals are typically strongly background dominated. This problem can be circumvented by inelastic scattering processes. In this study, we investigate the inelastic process of laser photon merging in the collision of just two laser pulses under a finite angle, which provides signal photons of a distinct frequency outside the frequency spectrum of the background. As a key result, for the example of two laser beams of the same oscillation frequency we demonstrate that by using high-intensity optical lasers and choosing an optimal collision angle, photon merging should become accessible in experiment with state-of-the-art technology. In this case three frequency $\omega$ laser photons are merged to a single $3\omega$ photon., Comment: 21 pages, 5 figures

Published

2023

7. Direct accessibility of the fundamental constants governing light-by-light scattering

Author

Karbstein, Felix, Ullmann, Daniel, Mosman, Elena A., and Zepf, Matt

Subjects

High Energy Physics - Phenomenology, Quantum Physics

Abstract

Quantum field theory predicts the vacuum to exhibit a non-linear response to strong electromagnetic fields. This fundamental tenet has remained experimentally challenging and is yet to be tested in the laboratory. We present proof of concept and detailed theoretical analysis of an experimental setup for precision measurements of the quantum vacuum signal generated by the collision of a brilliant x-ray probe with a high-intensity pump laser. The signal features components polarised parallel and perpendicularly to the incident x-ray probe. Our proof-of-concept measurements show that the background can be efficiently suppressed by many orders of magnitude which should not only facilitate a detection of the perpendicularly polarised component of non-linear vacuum response, but even make the parallel polarised component experimentally accessible for the first time. Remarkably, the angular separation of the signal from the intense x-ray probe enables precision measurements even in presence of pump fluctuations and alignment jitter. This provides direct access to the low-energy constants governing light-by-light scattering., Comment: 5 pages, 4 figures

Published

2022

8. All-optical Quantum Vacuum Signals in Two-Beam Collision

Author

Gies, Holger, Karbstein, Felix, and Klar, Leonhard

Subjects

High Energy Physics - Phenomenology, Physics - Optics, Quantum Physics

Abstract

The fundamental theory of quantum electrodynamics predicts the vacuum to resemble a polarizable medium. This gives rise to effective nonlinear interactions between electromagnetic fields and light-by-light scattering phenomena. We study the collision of two optical laser pulses in a pump-probe setup using beams with circular and elliptic cross section and estimate the number of discernible signal photons induced by quantum vacuum nonlinearities. In this analysis we study strategies to optimize the quantum vacuum signal discernible from the background of the driving lasers. One of the main results is that the collision of two maximally focused lasers does not lead to the best discernible signal. Instead, widening the focus typically improves the signal to background separation in the far field., Comment: 18 pages, 14 figures

Published

2022

9. Exploring new states of matter with a photonic emulator

Author

Karbstein, Felix, Stützer, Simon, Gies, Holger, and Szameit, Alexander

Subjects

Physics - Optics, High Energy Physics - Phenomenology, Quantum Physics

Abstract

We implement the equation of motion of the large-N Gross-Neveu model from strong interaction physics in photonic waveguide arrays and study one of its paradigmatic multi-fermion bound state solutions in an optical experiment. The present study constitutes an important first step towards waveguide-based simulations of phenomena relevant for high-energy physics.

Published

2022

10. Quantum vacuum processes in the extremely intense light of relativistic plasma mirror sources

Author

Sainte-Marie, Antonin, Fedeli, Luca, Zaïm, Neïl, Karbstein, Felix, and Vincenti, Henri

Subjects

Physics - Optics, High Energy Physics - Phenomenology, Physics - Plasma Physics

Abstract

The advent of Petawatt-class laser systems allows generating electro-magnetic fields of unprecedented strength in a controlled environment, driving increasingly more efforts to probe yet unobserved processes through their interaction with the quantum vacuum. Still, the lowest intensity scale governing these effects lies orders of magnitude beyond foreseen capabilities, so that such endeavor is expected to remain extremely challenging. In recent years, however, plasma mirrors have emerged as a promising bridge across this gap, by enabling the conversion of intense infrared laser pulses into coherently focused Doppler harmonic beams lying in the X-UV range. In this work, we present quantitative predictions on the quantum vacuum signatures produced when such beams are focused to intensities between $10^{24}$ and $10^{28}\ \mathrm{W.cm}^{-2}$ . These signatures, which notably include photon-photon scattering and electron-positron pair creation, are obtained using state-of-the-art massively parallel numerical tools. In view of identifying experimentally favorable configurations, we also consider the coupling of the focused harmonic beam with an auxiliary optical beam, and provide comparison with other established schemes. Our results show that a single coherently focused harmonic beam can produce as much scattered photons as two infrared pulses in head-on collision, and confirm that the coupling of the harmonic beam to an auxiliary beam gives rise to significant levels of inelastic scattering, and hence holds the potential to strongly improve the attainable signal to noise ratios in experiments., Comment: 21 pages, 5 figures

Published

2022

11. Tadpole contribution to magnetic photon-graviton conversion

Author

Ahmadiniaz, Naser, Bastianelli, Fiorenzo, Karbstein, Felix, and Schubert, Christian

Subjects

High Energy Physics - Phenomenology, General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

Photon-graviton conversion in a magnetic field is a process that is usually studied at tree level, but the one-loop corrections due to scalars and spinors have also been calculated. Differently from the tree-level process, at one-loop one finds the amplitude to depend on the photon polarization, leading to dichroism. However, previous calculations overlooked a tadpole contribution of the type that was considered to be vanishing in QED for decades but erroneously so, as shown by H. Gies and one of the authors in 2016. Here we compute this missing diagram in closed form, and show that it does not contribute to dichroism., Comment: 8 pages, 7 figures, talk given by C. Schubert at Sixteenth Marcel Grossmann Meeting, July 5-10, 2021. Submitted to the conference proceedings

Published

2021

12. Towards the full Heisenberg-Euler effective action at large N

Author

Karbstein, Felix

Published

2024

13. Large $N$ external-field quantum electrodynamics

Author

Karbstein, Felix

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We advocate the study of external-field quantum electrodynamics with $N$ charged particle flavors. Our main focus is on the Heisenberg-Euler effective action for this theory in the large $N$ limit which receives contributions from all loop orders. The contributions beyond one loop stem from one-particle reducible diagrams. We show that specifically in constant electromagnetic fields the latter are generated by the one-loop Heisenberg-Euler effective Lagrangian. Hence, in this case the large $N$ Heisenberg-Euler effective action can be determined explicitly at any desired loop order. We demonstrate that further analytical insights are possible for electric-and magnetic-like field configurations characterized by the vanishing of one of the secular invariants of the electromagnetic field and work out the all-orders strong field limit of the theory., Comment: 15 pages

Published

2021

14. Derivative corrections to the Heisenberg-Euler effective action

Author

Karbstein, Felix

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We show that the leading derivative corrections to the Heisenberg-Euler effective action can be determined efficiently from the vacuum polarization tensor evaluated in a homogeneous constant background field. After deriving the explicit parameter-integral representation for the leading derivative corrections in generic electromagnetic fields at one loop, we specialize to the cases of magnetic- and electric-like field configurations characterized by the vanishing of one of the secular invariants of the electromagnetic field. In these cases, closed-form results and the associated all-orders weak- and strong-field expansions can be worked out. One immediate application is the leading derivative correction to the renowned Schwinger-formula describing the decay of the quantum vacuum via electron-positron pair production in slowly-varying electric fields., Comment: 18 pages, no figure

Published

2021

15. X-ray vacuum diffraction at finite spatio-temporal offset

Author

Karbstein, Felix and Weernink, Ricardo R. Q. P. T. Oude

Subjects

High Energy Physics - Phenomenology, Physics - Optics, Quantum Physics

Abstract

We study the nonlinear QED signature of x-ray vacuum diffraction in the head-on collision of optical high-intensity and x-ray free-electron laser pulses at finite spatio-temporal offsets between the laser foci. The high-intensity laser driven scattering of signal photons outside the forward cone of the x-ray probe constitutes a prospective experimental signature of quantum vacuum nonlinearity. Resorting to a simplified phenomenological ad-hoc model, it was recently argued that the angular distribution of the signal in the far-field is sensitive to the wavefront curvature of the probe beam in the interaction region with the high-intensity pump. In this work, we model both the pump and probe fields as pulsed paraxial Gaussian beams and reanalyze this effect from first principles. We focus on vacuum diffraction both as an individual signature of quantum vacuum nonlinearity and as a potential means to improve the signal-to-background-separation in vacuum birefringence experiments., Comment: 29 pages, 7 figures

Published

2021

16. Expanding Nuclear Physics Horizons with the Gamma Factory

Author

Budker, Dmitry, Berengut, Julian C., Flambaum, Victor V., Gorchtein, Mikhail, Jin, Junlan, Karbstein, Felix, Krasny, Mieczyslaw Witold, Litvinov, Yuri A., Pálffy, Adriana, Pascalutsa, Vladimir, Petrenko, Alexey, Surzhykov, Andrey, Thirolf, Peter G., Vanderhaeghen, Marc, Weidenmüller, Hans A., and Zelevinsky, Vladimir

Subjects

Nuclear Experiment, High Energy Physics - Experiment, Nuclear Theory, Physics - Accelerator Physics, Physics - Atomic Physics

Abstract

The Gamma Factory (GF) is an ambitious proposal, currently explored within the CERN Physics Beyond Colliders program, for a source of photons with energies up to $\approx 400\,$MeV and photon fluxes (up to $\approx 10^{17}$ photons per second) exceeding those of the currently available gamma sources by orders of magnitude. The high-energy (secondary) photons are produced via resonant scattering of the primary laser photons by highly relativistic partially-stripped ions circulating in the accelerator. The secondary photons are emitted in a narrow cone and the energy of the beam can be monochromatized, eventually down to the $\approx1$ ppm level, via collimation, at the expense of the photon flux. This paper surveys the new opportunities that may be afforded by the GF in nuclear physics and related fields., Comment: 69 pages, 13 tables, 33 figures

Published

2021

17. Vacuum birefringence at the Gamma Factory

Author

Karbstein, Felix

Subjects

High Energy Physics - Phenomenology

Abstract

We explore the perspectives of studying vacuum birefringence at the Gamma Factory. To this end, we assess in detail the parameter regime which can be reliably analyzed resorting to the leading contribution to the Heisenberg-Euler effective Lagrangian. We explicitly show that -- contrarily to naive expectations -- this approach allows for the accurate theoretical study of quantum vacuum signatures up to fairly large photon energies. The big advantage of this parameter regime is the possibility of studying the phenomenon in experimentally realistic, manifestly inhomogeneous pump and probe field configurations. Thereafter, we focus on two specific scenarios giving rise to a vacuum birefringence effect for traversing gamma probe photons. In the first scenario the birefringence phenomenon is induced by a quasi-constant static magnetic field. In the second case it is driven by a counter-propagating high-intensity laser field., Comment: 20 pages, 3 figures; contribution to a special issue devoted to the "Physics Opportunities with the Gamma Factory"

Published

2021

18. Vacuum birefringence at x-ray free-electron lasers

Author

Karbstein, Felix, Sundqvist, Chantal, Schulze, Kai S., Uschmann, Ingo, Gies, Holger, and Paulus, Gerhard G.

Subjects

High Energy Physics - Phenomenology, Physics - Optics, Quantum Physics

Abstract

We study the perspectives of measuring the phenomenon of vacuum birefringence predicted by quantum electrodynamics using an x-ray free-electron laser (XFEL) alone. We devise an experimental scheme allowing the XFEL beam to collide with itself under a finite angle, and thus act as both pump and probe field for the effect. The signature of vacuum birefringence is encoded in polarization-flipped signal photons to be detected with high-purity x-ray polarimetry. Our findings for idealized scenarios underline that the discovery potential of solely XFEL-based setups can be comparable to those involving optical high-intensity lasers. For currently achievable scenarios, we identify several key details of the x-ray optical ingredients that exert a strong influence on the magnitude of the desired signatures., Comment: 26 pages, 2 figures; matches journal version

Published

2021

19. Vacuum birefringence and diffraction at XFEL: from analytical estimates to optimal parameters

Author

Mosman, Elena A. and Karbstein, Felix

Subjects

High Energy Physics - Phenomenology, Quantum Physics

Abstract

We study vacuum birefringence and x-ray photon scattering in the head-on collision of x-ray free electron and high-intensity laser pulses. Resorting to analytical approximations for the numbers of attainable signal photons, we analyze the behavior of the phenomenon under the variation of various experimental key-parameters and provide new analytical scalings. Our optimized approximations allow for quantitatively accurate results on the one-percent level. We in particular demonstrate that an appropriate choice of the x-ray focus and pulse duration can significantly improve the signal for given laser parameters, using the experimental parameters to be available at the Helmholtz International Beamline for Extreme Fields at the European XFEL as example. Our results are essential for the identification of the optimal choice of parameters in a discovery experiment of vacuum birefringence at the high-intensity frontier., Comment: 11 pages, 7 figures; matches journal version

Published

2021

20. Quantum vacuum signatures in multi-color laser pulse collisions

Author

Gies, Holger, Karbstein, Felix, and Klar, Leonhard

Subjects

High Energy Physics - Phenomenology, Physics - Optics, Quantum Physics

Abstract

Quantum vacuum fluctuations give rise to effective non-linear interactions between electromagnetic fields. A prominent signature of quantum vacuum nonlinearities driven by macroscopic fields are signal photons differing in characteristic properties such as frequency, propagation direction and polarization from the driving fields. We devise a strategy for the efficient tracing of the various vacuum-fluctuation-mediated interaction processes in order to identify the most prospective signal photon channels. As an example, we study the collision of up to four optical laser pulses and pay attention to sum and difference frequency generation. We demonstrate how this information can be used to enhance the signal photon yield in laser pulse collisions for a given total laser energy., Comment: 15 pages, 9 figures

Published

2021

21. Enhancing quantum vacuum signatures with tailored laser beams

Author

Karbstein, Felix and Mosman, Elena A.

Subjects

Quantum Physics, High Energy Physics - Phenomenology, Physics - Optics

Abstract

We demonstrate that tailored laser beams provide a powerful means to make quantum vacuum signatures in strong electromagnetic fields accessible in experiment. Typical scenarios aiming at the detection of quantum vacuum nonlinearities at the high-intensity frontier envision the collision of focused laser pulses. The effective interaction of the driving fields mediated by vacuum fluctuations gives rise to signal photons encoding the signature of quantum vacuum nonlinearity. Isolating a small number of signal photons from the large background of the driving laser photons poses a major experimental challenge. The main idea of the present work is to modify the far-field properties of a driving laser beam to exhibit a field-free hole in its center, thereby allowing for an essentially background free measurement of the signal scattered in the forward direction. Our explicit construction makes use of a peculiar far-field/focus duality., Comment: 5 pages, 3 figures; presentation improved, matches PRD version

Published

2020

22. Probing vacuum polarization effects with high-intensity lasers

Author

Karbstein, Felix

Subjects

High Energy Physics - Phenomenology

Abstract

These notes provide a pedagogical introduction to the theoretical study of vacuum polarization effects in strong electromagnetic fields as provided by state-of-the-art high-intensity lasers. Quantum vacuum fluctuations give rise to effective couplings between electromagnetic fields, thereby supplementing Maxwell's linear theory of classical electrodynamics with nonlinearities. Resorting to a simplified laser pulse model allowing for explicit analytical insights, we demonstrate how to efficiently analyze all-optical signatures of these effective interactions in high-intensity laser experiments. Moreover, we highlight several key features relevant for the accurate planning and quantitative theoretical analysis of quantum vacuum nonlinearities in the collision of high-intensity laser pulses., Comment: 21 pages, 1 figure; Lectures given at the Helmholtz International Summer School (HISS) - Dubna International Advanced School of Theoretical Physics (DIAS-TH): "Quantum Field Theory at the Limits: from Strong Fields to Heavy Quarks", July-August 2019

Published

2019

23. X-ray photon scattering at a focused high-intensity laser pulse

Author

Karbstein, Felix and Mosman, Elena A.

Subjects

Physics - Optics, High Energy Physics - Phenomenology

Abstract

We study x-ray photon scattering in the head-on collision of an XFEL pulse and a focused high-intensity laser pulse, described as paraxial Laguerre-Gaussian beam of arbitrary mode composition. For adequately chosen relative orientations of the polarization vectors of the colliding laser fields, this gives rise to a vacuum birefringence effect manifesting itself in polarization flipped signal photons. Throughout this article the XFEL is assumed to be mildly focused to a waist larger than that of the high-intensity laser beam. As previously demonstrated for the special case of a fundamental paraxial Gaussian beam, this scenario is generically accompanied by a scattering phenomenon of x-ray energy signal photons outside the forward cone of the XFEL beam, potentially assisting the detection of the effect in experiment. Here, we study the fate of the x-ray scattering signal under exemplary deformations of the transverse focus profile of the high-intensity pump., Comment: 21 pages, 3 figures

Published

2019

24. Boosting quantum vacuum signatures by coherent harmonic focusing

Author

Karbstein, Felix, Blinne, Alexander, Gies, Holger, and Zepf, Matt

Subjects

High Energy Physics - Phenomenology, Quantum Physics

Abstract

We show that coherent harmonic focusing provides an efficient mechanism to boost all-optical signatures of quantum vacuum nonlinearity in the collision of high-intensity laser fields, thereby offering a promising route to their first experimental detection. Assuming two laser pulses of given parameters at our disposal, we demonstrate a substantial increase of the number of signal photons measurable in experiments where one of the pulses undergoes coherent harmonic focusing before it collides with the fundamental-frequency pulse. Imposing a quantitative criterion to discern the signal photons from the background of the driving laser photons and accounting for the finite purity of polarization filtering, we find that signal photons arising from inelastic scattering processes constitute a promising signature. By contrast, quasi-elastic contributions which are conventionally assumed to form the most prospective signal remain background dominated. Our findings may result in a paradigm shift concerning which photonic signatures of quantum vacuum nonlinearity are accessible in experiment., Comment: 9 pages, 6 figures; matches journal version; typos corrected

Published

2019

25. An all-loop result for the strong magnetic field limit of the Heisenberg-Euler effective Lagrangian

Author

Karbstein, Felix

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology, Quantum Physics

Abstract

We provide an explicit expression for the strong magnetic field limit of the Heisenberg-Euler effective Lagrangian for both scalar and spinor quantum electrodynamics. To this end, we show that the strong magnetic field behavior is fully determined by one-particle reducible contributions discovered only recently. The latter can efficiently be constructed in an essentially algebraic procedure from lower-order one-particle reducible diagrams. Remarkably, the leading strong magnetic field behavior of the all-loop Heisenberg-Euler effective Lagrangian only requires input from the one-loop Lagrangian. Our result revises previous findings based exclusively on one-particle irreducible contributions. In addition we briefly discuss the strong electric field limit and comment on external field QED in the large $N$ limit., Comment: 5 pages, 2 figures; v2: differs from previous and published versions, correctly accounts for a factor of 1/2 in the 1PR contributions

Published

2019

26. The Vacuum Emission Picture Beyond Paraxial Approximation

Author

Blinne, Alexander, Gies, Holger, Karbstein, Felix, Kohlfürst, Christian, and Zepf, Matt

Subjects

Physics - Optics, High Energy Physics - Phenomenology, Quantum Physics

Abstract

Optical signatures of the effective nonlinear couplings among electromagnetic fields in the quantum vacuum can be conveniently described in terms of stimulated photon emission processes induced by strong classical, space-time dependent electromagnetic fields. Recent studies have adopted this approach to study collisions of Gaussian laser pulses in paraxial approximation. The present study extends these investigations beyond the paraxial approximation by using an efficient numerical solver for the classical input fields. This new numerical code allows for a consistent theoretical description of optical signatures of QED vacuum nonlinearities in generic electromagnetic fields governed by Maxwell's equations in the vacuum, such as manifestly non-paraxial laser pulses. Our code is based on a locally constant field approximation of the Heisenberg-Euler effective Lagrangian. As this approximation is applicable for essentially all optical high-intensity laser experiments, our code is capable of calculating signal photon emission amplitudes in completely generic input field configurations, limited only by numerical cost., Comment: 8 pages, 3 figures; talk given at LPHYS'18, Nottingham, United Kingdom

Published

2018

27. Photon-Photon Scattering at the High-Intensity Frontier: Paraxial Beams

Author

Blinne, Alexander, Gies, Holger, Karbstein, Felix, Kohlfürst, Christian, and Zepf, Matt

Subjects

High Energy Physics - Phenomenology, Physics - Optics, Quantum Physics

Abstract

Our goal is to study optical signatures of quantum vacuum nonlinearities in strong macroscopic electromagnetic fields provided by high-intensity laser beams. The vacuum emission scheme is perfectly suited for this task as it naturally distinguishes between incident laser beams, described as classical electromagnetic fields driving the effect, and emitted signal photons encoding the signature of quantum vacuum nonlinearity. Using the Heisenberg-Euler effective action, our approach allows for a reliable study of photonic signatures of QED vacuum nonlinearity in the parameter regimes accessible by all-optical high-intensity laser experiments. To this end, we employ an efficient, flexible numerical algorithm, which allows for a detailed study of the signal photons emerging in the collision of focused paraxial high-intensity laser pulses. Due to the high accuracy of our numerical solutions we predict the total number of signal photons, but also have full access to the signal photons' characteristics, including their spectrum, propagation directions and polarizations. We discuss setups offering an excellent background-to-noise ratio, thus providing an important step towards the experimental verification of quantum vacuum nonlinearities., Comment: 7 pages, 2 figures; talk given at LPHYS'18, Nottingham, United Kingdom

Published

2018

28. All-optical signatures of quantum vacuum nonlinearities in generic laser fields

Author

Blinne, Alexander, Gies, Holger, Karbstein, Felix, Kohlfürst, Christian, and Zepf, Matt

Subjects

Physics - Optics, High Energy Physics - Phenomenology

Abstract

All-optical experiments at the high-intensity frontier offer a promising route to unprecedented precision tests of quantum electrodynamics in strong macroscopic electromagnetic fields. So far, most theoretical studies of all-optical signatures of quantum vacuum nonlinearity are based on simplifying approximations of the beam profiles and pulse shapes of the driving laser fields. Since precision tests require accurate quantitative theoretical predictions, we introduce an efficient numerical tool facilitating the quantitative theoretical study of all-optical signatures of quantum vacuum nonlinearity in generic laser fields. Our approach is based on the vacuum emission picture, and makes use of the fact that the dynamics of the driving laser fields are to an excellent approximation governed by classical Maxwell theory in vacuum. In combination with a Maxwell solver, which self-consistently propagates any given laser field configuration, this allows for accurate theoretical predictions of photonic signatures of vacuum nonlinearity in high-intensity laser experiments from first principles. We employ our method to simulate photonic signatures of quantum vacuum nonlinearity in laser pulse collisions involving a few-cycle pulse, and show that the angular and spectral distributions of the emitted signal photons deviate from those of the driving laser beams., Comment: 17 pages,9 figures

Published

2018

29. Vacuum birefringence in the head-on collision of XFEL and optical high-intensity laser pulses

Author

Karbstein, Felix

Subjects

Quantum Physics, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

The focus of this article is on providing compact analytical expressions for the differential number of polarization flipped signal photons constituting the signal of vacuum birefringence in the head-on collision of x-ray free electron (XFEL) and optical high-intensity laser pulses. Our results allow for unprecedented insights into the scaling of the effect with the waists and pulse durations of both laser beams, the Rayleigh range of the high-intensity beam, as well as transverse and longitudinal offsets. They account for the decay of the differential number of signal photons in the far-field as a function of the azimuthal angle measured relative to the beam axis of the probe beam in forward direction, typically neglected by conventional approximations. Moreover, they even allow us to extract an analytical expression for the angular divergence of the perpendicularly polarized signal photons. We expect our formulas to be very useful for the planning and optimization of experimental scenarios aiming at the detection of vacuum birefringence in XFEL/high-intensity laser setups, such as the one put forward at the Helmholtz International Beamline for Extreme Fields (HIBEF) at the European XFEL., Comment: 18 pages, 1 figure; typo in Eq. (11) corrected

Published

2018

30. Determination of $\Lambda_{\overline{\textrm{MS}}}^{(n_f=2)}$ and analytic parameterization of the static quark-antiquark potential

Author

Karbstein, Felix, Wagner, Marc, and Weber, Michelle

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Lattice

Abstract

While lattice QCD allows for reliable results at small momentum transfers (large quark separations), perturbative QCD is restricted to large momentum transfers (small quark separations). The latter is determined up to a reference momentum scale $\Lambda$, which is to be provided from outside, e.g. from experiment or lattice QCD simulations. In this article, we extract $\Lambda_{\overline{\textrm{MS}}}$ for QCD with $n_f=2$ dynamical quark flavors by matching the perturbative static quark-antiquark potential in momentum space to lattice results in the intermediate momentum regime, where both approaches are expected to be applicable. In a second step, we combine the lattice and the perturbative results to provide a complete analytic parameterization of the static quark-antiquark potential in position space up to the string breaking scale. As an exemplary phenomenological application of our all-distances potential we compute the bottomonium spectrum in the static limit., Comment: 36 pages, 7 figures; extended version accepted for publication by PRD

Published

2018

31. High magnetic fields for fundamental physics

Author

Battesti, Rémy, Beard, Jerome, Böser, Sebastian, Bruyant, Nicolas, Budker, Dmitry, Crooker, Scott A., Daw, Edward J., Flambaum, Victor V., Inada, Toshiaki, Irastorza, Igor G., Karbstein, Felix, Kim, Dong Lak, Kozlov, Mikhail G., Melhem, Ziad, Phipps, Arran, Pugnat, Pierre, Rikken, Geert, Rizzo, Carlo, Schott, Matthias, Semertzidis, Yannis K., Kate, Herman H. J. ten, and Zavattini, Guido

Subjects

Physics - Instrumentation and Detectors, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Atomic Physics

Abstract

Various fundamental-physics experiments such as measurement of the birefringence of the vacuum, searches for ultralight dark matter (e.g., axions), and precision spectroscopy of complex systems (including exotic atoms containing antimatter constituents) are enabled by high-field magnets. We give an overview of current and future experiments and discuss the state-of-the-art DC- and pulsed-magnet technologies and prospects for future developments., Comment: 49 pages, 32 figures

Published

2018

32. Photon polarization tensor in circularly polarized Hermite- and Laguerre-Gaussian beams

Author

Karbstein, Felix and Mosman, Elena A.

Subjects

High Energy Physics - Phenomenology

Abstract

We derive analytical expressions for the photon polarization tensor in circularly polarized Hermite- and Laguerre-Gaussian beams, complementing the corresponding results for linearly polarized beams obtained recently. As they are based upon a locally constant field approximation of the one-loop Heisenberg-Euler effective Lagrangian for quantum electrodynamics (QED) in constant fields, our results are generically limited to slowly varying electromagnetic fields, varying on spatial (temporal) scales much larger than the Compton wavelength (time) of the electron., Comment: 6 pages; Contribution to the LPHYS'17 Conference Proceedings

Published

2017

33. Photon-photon scattering at the high-intensity frontier

Author

Gies, Holger, Karbstein, Felix, Kohlfürst, Christian, and Seegert, Nico

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory, Physics - Optics, Physics - Plasma Physics, Quantum Physics

Abstract

The tremendous progress in high-intensity laser technology and the establishment of dedicated high-field laboratories in recent years have paved the way towards a first observation of quantum vacuum nonlinearities at the high-intensity frontier. We advocate a particularly prospective scenario, where three synchronized high-intensity laser pulses are brought into collision, giving rise to signal photons, whose frequency and propagation direction differ from the driving laser pulses, thus providing various means to achieve an excellent signal to background separation. Based on the theoretical concept of vacuum emission, we employ an efficient numerical algorithm which allows us to model the collision of focused high-intensity laser pulses in unprecedented detail. We provide accurate predictions for the numbers of signal photons accessible in experiment. Our study paves the way for a first verification of quantum vacuum nonlinearity in a well-controlled laboratory experiment at one of the many high-intensity laser facilities currently coming online., Comment: 7 pages, 2 figures; matches journal version

Published

2017

34. All-optical signatures of Strong-Field QED in the vacuum emission picture

Author

Gies, Holger, Karbstein, Felix, and Kohlfürst, Christian

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory, Quantum Physics

Abstract

We study all-optical signatures of the effective nonlinear couplings among electromagnetic fields in the quantum vacuum, using the collision of two focused high-intensity laser pulses as an example. The experimental signatures of quantum vacuum nonlinearities are encoded in signal photons, whose kinematic and polarization properties differ from the photons constituting the macroscopic laser fields. We implement an efficient numerical algorithm allowing for the theoretical investigation of such signatures in realistic field configurations accessible in experiment. This algorithm is based on a vacuum emission scheme and can readily be adapted to the collision of more laser beams or further involved field configurations. We solve the case of two colliding pulses in full 3+1 dimensional spacetime, and identify experimental geometries and parameter regimes with improved signal-to-noise ratios., Comment: 18 pages, 20 figures

Published

2017

35. The photon polarization tensor in pulsed Hermite- and Laguerre-Gaussian beams

Author

Karbstein, Felix and Mosman, Elena A.

Subjects

High Energy Physics - Phenomenology

Abstract

In this article, we provide analytical expressions for the photon polarization tensor in pulsed Hermite- and Laguerre-Gaussian laser beams. Our results are based on a locally constant field approximation of the one-loop Heisenberg-Euler effective Lagrangian for quantum electrodynamics. Hence, by construction they are limited to slowly varying electromagnetic fields, varying on spatial and temporal scales significantly larger than the Compton wavelength/time of the electron. The latter criterion is fulfilled by all laser beams currently available in the laboratory. Our findings will, e.g., be relevant for the study of vacuum birefringence experienced by probe photons brought into collision with a high-intensity laser pulse which can be represented as a superposition of either Hermite- or Laguerre-Gaussian modes., Comment: 18 pages, 1 figure

Published

2017

36. Tadpole diagrams in constant electromagnetic fields

Author

Karbstein, Felix

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We show how all possible one-particle reducible tadpole diagrams in constant electromagnetic fields can be constructed from one-particle irreducible constant-field diagrams. The construction procedure is essentially algebraic and involves differentiations of the latter class of diagrams with respect to the field strength tensor and contractions with derivatives of the one-particle irreducible part of the Heisenberg-Euler effective Lagrangian in constant fields. Specific examples include the two-loop addendum to the Heisenberg-Euler effective action as well as a novel one-loop correction to the charged particle propagator in constant electromagnetic fields discovered recently. As an additional example, the approach devised in the present article is adopted to derive the tadpole contribution to the two-loop photon polarization tensor in constant fields for the first time., Comment: 15 pages, 3 figures; v3: Eqs. (2) and (4) corrected by a factor of 1/2 missing in the previous and the published versions

Published

2017

37. The Heisenberg-Euler effective action in slowly varying electric field inhomogeneities of Lorentzian shape

Author

Karbstein, Felix

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We use a locally constant field approximation (LCFA) to study the one-loop Heisenberg-Euler effective action in a particular class of slowly varying inhomogeneous electric fields of Lorentzian shape with $0\leq d\leq 4$ inhomogeneous directions. We show that for these fields, the LCFA of the Heisenberg-Euler effective action can be represented in terms of a single parameter integral, with the constant field effective Lagrangian with rescaled argument as integration kernel. The imaginary part of the Heisenberg-Euler effective action contains information about the instability of the quantum vacuum towards the formation of a state with real electrons and positrons. Here, we in particular focus on the dependence of the instantaneous vacuum decay rate on the dimension $d$ of the field inhomogeneity. Specifically for weak fields, we find an overall parametric suppression of the effect with $(E_0/E_{\rm cr})^{d/2}$, where $E_0$ is the peak field strength of the inhomogeneity and $E_{\rm cr}$ the critical electric field strength., Comment: 11 pages; some clarifications added, matches journal version

Published

2017

38. An Addendum to the Heisenberg-Euler effective action beyond one loop

Author

Gies, Holger and Karbstein, Felix

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We study the effective interactions of external electromagnetic fields induced by fluctuations of virtual particles in the vacuum of quantum electrodynamics. Our main focus is on these interactions at two-loop order. We discuss in detail the emergence of the renowned Heisenberg-Euler effective action from the underlying microscopic theory of quantum electrodynamics, emphasizing its distinction from a standard one-particle irreducible effective action. In our explicit calculations we limit ourselves to constant and slowly varying external fields, allowing us to adopt a locally constant field approximation. One of our main findings is that at two-loop order there is a finite one-particle reducible contribution to the Heisenberg-Euler effective action in constant fields, which was previously assumed to vanish. In addition to their conceptual significance, our results are relevant for high-precision probes of quantum vacuum nonlinearity in strong electromagnetic fields., Comment: 37 pages, 6 figures; v5: typos removed

Published

2016

39. The quantum vacuum in electromagnetic fields: From the Heisenberg-Euler effective action to vacuum birefringence

Author

Karbstein, Felix

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

The focus of these lectures is on the quantum vacuum subjected to classical electromagnetic fields. To this end we explicitly derive the renowned Heisenberg-Euler effective action in constant electromagnetic fields in a rather pedagogical and easy to conceive way. As an application, we use it to study vacuum birefringence constituting one of the most promising optical signatures of quantum vacuum nonlinearity., Comment: 14 pages, 6 figures; Lectures given at the Helmholtz International Summer School (HISS) - Dubna International Advanced School of Theoretical Physics (DIAS-TH): "Quantum Field Theory at the Limits: from Strong Fields to Heavy Quarks", July 2016

Published

2016

40. Photon propagation in slowly varying electromagnetic fields

Author

Karbstein, Felix

Subjects

High Energy Physics - Phenomenology

Abstract

We study the effective theory of soft photons in slowly varying electromagnetic background fields at one-loop order in QED. This is of relevance for the study of all-optical signatures of quantum vacuum nonlinearity in realistic electromagnetic background fields as provided by high-intensity lasers. The central result derived in this article is a new analytical expression for the photon polarization tensor in two linearly polarized counter-propagating pulsed Gaussian laser beams. As we treat the peak field strengths of both laser beams as free parameters this field configuration can be considered as interpolating between the limiting cases of a purely right- or left-moving laser beam (if one of the peak field strengths is set to zero) and the standing-wave type scenario with two counter-propagating beams of equal strength., Comment: 6 pages, 1 figure; contribution to the Workshop Proceedings of the International Workshop SFP-2016: Strong Field Problems in Quantum Theory, Tomsk, Russia, June 6-12, 2016

Published

2016

41. Probing vacuum birefringence using x-ray free electron and optical high-intensity lasers

Author

Karbstein, Felix and Sundqvist, Chantal

Subjects

High Energy Physics - Phenomenology, Physics - Optics, Quantum Physics

Abstract

Vacuum birefringence is one of the most striking predictions of strong field quantum electrodynamics: Probe photons traversing a strong field region can indirectly sense the applied "pump" electromagnetic field via quantum fluctuations of virtual charged particles which couple to both pump and probe fields. This coupling is sensitive to the field alignment and can effectively result in two different indices of refraction for the probe photon polarization modes giving rise to a birefringence phenomenon. In this article we perform a dedicated theoretical analysis of the proposed discovery experiment of vacuum birefringence at a x-ray free electron laser/optical high-intensity laser facility. Describing both pump and probe laser pulses realistically in terms of their macroscopic electromagnetic fields, we go beyond previous analyses by accounting for various effects not considered before in this context. Our study facilitates stringent quantitative predictions and optimizations of the signal in an actual experiment., Comment: 23 pages, 4 figures

Published

2016

42. Photon merging and splitting in electromagnetic field inhomogeneities

Author

Gies, Holger, Karbstein, Felix, and Seegert, Nico

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory, Quantum Physics

Abstract

We investigate photon merging and splitting processes in inhomogeneous, slowly varying electromagnetic fields. Our study is based on the three-photon polarization tensor following from the Heisenberg-Euler effective action. We put special emphasis on deviations from the well-known constant field results, also revisiting the selection rules for these processes. In the context of high-intensity laser facilities, we analytically determine compact expressions for the number of merged/split photons as obtained in the focal spots of intense laser beams. For the parameter range of a typical petawatt class laser system as pump and a terawatt class laser as probe, we provide estimates for the numbers of signal photons attainable in an actual experiment. The combination of frequency upshifting, polarization dependence and scattering off the inhomogeneities renders photon merging an ideal signature for the experimental exploration of nonlinear quantum vacuum properties., Comment: 14 pages, 4 figures

Published

2016

43. Crystalline Ground States in Polyakov-loop extended Nambu--Jona-Lasinio Models

Author

Braun, Jens, Karbstein, Felix, Rechenberger, Stefan, and Roscher, Dietrich

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

Nambu--Jona-Lasinio-type models have been used extensively to study the dynamics of the theory of the strong interaction at finite temperature and quark chemical potential on a phenomenological level. In addition to these studies, which are often performed under the assumption that the ground state of the theory is homogeneous, searches for the existence of crystalline phases associated with inhomogeneous ground states have attracted a lot of interest in recent years. In this work, we study the Polyakov-loop extended Nambu--Jona-Lasinio model and find that the existence of a crystalline phase is stable against a variation of the parametrization of the underlying Polyakov loop potential. To this end, we adopt two prominent parametrizations. Moreover, we observe that the existence of a quarkyonic phase depends crucially on the parametrization, in particular in the regime of the phase diagram where inhomogeneous chiral condensation is favored., Comment: 7 pages, 3 figures

Published

2015

44. Vacuum Birefringence as a Vacuum Emission Process

Author

Karbstein, Felix

Subjects

High Energy Physics - Phenomenology, Quantum Physics

Abstract

We argue that the phenomenon of vacuum birefringence in strong inhomogeneous electromagnetic fields can be most efficiently analyzed in terms of a vacuum emission process. In this contribution, we exemplarily stick to the case of vacuum birefringence in a stationary perpendicularly directed, purely magnetic background field extending over a finite spatial extent. Similar field configurations are realized in the BMV and PVLAS experiments. We demonstrate that we can reproduce the conventional constant field result. Our focus is on effects which arise when the probe photons originate in the field free region, are directed towards the magnetic field region, and detected well after the interaction with the magnetic field has taken place, again at zero field., Comment: 7 pages, 1 figure; contribution to the PHOTON 2015 Conference, Novosibirsk, Russia, June 15-19, 2015

Published

2015

45. Vacuum birefringence in strong inhomogeneous electromagnetic fields

Author

Karbstein, Felix, Gies, Holger, Reuter, Maria, and Zepf, Matt

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory, Quantum Physics

Abstract

Birefringence is one of the fascinating properties of the vacuum of quantum electrodynamics (QED) in strong electromagnetic fields. The scattering of linearly polarized incident probe photons into a perpendicularly polarized mode provides a distinct signature of the optical activity of the quantum vacuum and thus offers an excellent opportunity for a precision test of non-linear QED. Precision tests require accurate predictions and thus a theoretical framework that is capable of taking the detailed experimental geometry into account. We derive analytical solutions for vacuum birefringence which include the spatio-temporal field structure of a strong optical pump laser field and an x-ray probe. We show that the angular distribution of the scattered photons depends strongly on the interaction geometry and find that scattering of the perpendicularly polarized scattered photons out of the cone of the incident probe x-ray beam is the key to making the phenomenon experimentally accessible with the current generation of FEL/high-field laser facilities., Comment: 6 pages, 4 figures

Published

2015

46. Photon propagation in slowly varying inhomogeneous electromagnetic fields

Author

Karbstein, Felix and Shaisultanov, Rashid

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory, Quantum Physics

Abstract

Starting from the Heisenberg-Euler effective Lagrangian, we determine the photon current and photon polarization tensor in inhomogeneous, slowly varying electromagnetic fields. To this end, we consider background field configurations varying in both space and time, paying special attention to the tensor structure. As a main result, we obtain compact analytical expressions for the photon polarization tensor in realistic Gaussian laser pulses, as generated in the focal spots of high-intensity lasers. These expressions are of utmost importance for the investigation of quantum vacuum nonlinearities in realistic high-intensity laser experiments., Comment: 15 pages, 1 figure; typo fixed in first line of Eq. (12)

Published

2015

47. Stimulated photon emission from the vacuum

Author

Karbstein, Felix and Shaisultanov, Rashid

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory, Quantum Physics

Abstract

We study the effect of stimulated photon emission from the vacuum in strong space-time-dependent electromagnetic fields. We emphasize the viewpoint that the vacuum subjected to macroscopic electromagnetic fields with at least one nonzero electromagnetic field invariant, as, e.g., attainable by superimposing two laser beams, can represent a source term for outgoing photons. We believe that this view is particularly intuitive and allows for a straightforward and intuitive study of optical signatures of quantum vacuum nonlinearity in realistic experiments involving the collision of high-intensity laser pulses, and exemplify this view for the vacuum subjected to a strong standing electromagnetic wave as generated in the focal spot of two counterpropagating, linearly polarized, high-intensity laser pulses. Focusing on a comparably simple electromagnetic field profile, which should nevertheless capture the essential features of the electromagnetic fields generated in the focal spots of real high-intensity laser beams, we provide estimates for emission characteristics and the numbers of emitted photons attainable with present and near future high-intensity laser facilities., Comment: 19 pages, 4 figures. Numerical results corrected: The peak electric field E is given by \sqrt{2*I}, with mean intensity I. Accounting for the factor of 2 missed previously, the experimental predictions \sim E^3 are increased by a factor of 8

Published

2014

48. Quantum reflection of photons off spatio-temporal electromagnetic field inhomogeneities

Author

Gies, Holger, Karbstein, Felix, and Seegert, Nico

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory, Quantum Physics

Abstract

We reconsider the recently proposed nonlinear QED effect of quantum reflection of photons off an inhomogeneous strong-field region. We present new results for strong fields varying both in space and time. While such configurations can give rise to new effects such as frequency mixing, estimated reflection rates based on previous one-dimensional studies are corroborated. On a conceptual level, we critically re-examine the validity regime of the conventional locally-constant-field approximation and identify kinematic configurations which can be treated reliably. Our results further underline the discovery potential of quantum reflection as a new signature of the nonlinearity of the quantum vacuum., Comment: 19 pages, 7 figures

Published

2014

49. On the Search for Inhomogeneous Phases in Fermionic Models

Author

Braun, Jens, Finkbeiner, Stefan, Karbstein, Felix, and Roscher, Dietrich

Subjects

High Energy Physics - Phenomenology, Condensed Matter - Superconductivity, Nuclear Theory

Abstract

We revisit the Gross-Neveu model with N fermion flavors in 1+1 dimensions and compute its phase diagram at finite temperature and chemical potential in the large-N limit. To this end, we double the number of fermion degrees of freedom in a specific way which allows us to detect inhomogeneous phases in an efficient manner. We show analytically that this "fermion doubling trick" predicts correctly the position of the boundary between the chirally symmetric phase and the phase with broken chiral symmetry. Most importantly, we find that the emergence of an inhomogeneous ground state is predicted correctly. We critically analyze our approach based on this trick and discuss its applicability to other theories, such as fermionic models in higher dimensions, where it may be used to guide the search for inhomogeneous phases., Comment: 9 pages, 1 figure

Published

2014

50. $\Lambda_{\bar{\textrm{MS}}}^{(n_f=2)}$ from a momentum space analysis of the quark-antiquark static potential

Author

Karbstein, Felix, Peters, Antje, and Wagner, Marc

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Theory

Abstract

We determine $\Lambda_{\bar{\textrm{MS}}}^{(n_f=2)}$ by fitting perturbative expressions for the quark-antiquark static potential to lattice results for QCD with $n_f=2$ dynamical quark flavors. To this end we use the perturbative static potential at the presently best known accuracy, i.e. up to ${\cal O}(\alpha_s^4)$, in momentum space. The lattice potential is computed on a fine lattice with $a \approx 0.042 \, \textrm{fm}$ in position space. To allow for a comparison and matching of both results, the lattice potential is transformed into momentum space by means of a discrete Fourier transform. The value of $\Lambda_{\bar{\textrm{MS}}}^{(n_f=2)}$ is extracted in momentum space. All sources of statistical and systematic errors are discussed. The uncertainty in the value of $\Lambda_{\bar{\textrm{MS}}}^{(n_f=2)}$ is found to be smaller than that obtained in a recent position space analysis of the static potential based on the same lattice data., Comment: 30 pages, 6 figures; some clarifications added, matches journal version

Published

2014