78 research outputs found
Multiconfigurational time-dependent Hartree-Fock calculations for photoionization of one-dimensional Helium
The multiconfigurational time-dependent Hartree-Fock equations are discussed
and solved for a one-dimensional model of the Helium atom. Results for the
ground state energy and two-particle density as well as the absorption spectrum
are presented and compared to direct solutions of the time-dependent
Schroedinger equation.Comment: 10 pages, 3 figures, 1 tabl
Effective Josephson dynamics in resonantly driven Bose-Einstein condensates
We show that the orbital Josephson effect appears in a wide range of driven
atomic Bose-Einstein condensed systems, including quantum ratchets, double
wells and box potentials. We use three separate numerical methods:
Gross-Pitaevskii equation, exact diagonalization of the few-mode problem, and
the Multi-Configurational Time-Dependent Hartree for Bosons algorithm. We
establish the limits of mean-field and few-mode descriptions, demonstrating
that they represent the full many-body dynamics to high accuracy in the weak
driving limit. Among other quantum measures, we compute the instantaneous
particle current and the occupation of natural orbitals. We explore four
separate dynamical regimes, the Rabi limit, chaos, the critical point, and
self-trapping; a favorable comparison is found even in the regimes of dynamical
instabilities or macroscopic quantum self-trapping. Finally, we present an
extension of the (t,t')-formalism to general time-periodic equations of motion,
which permits a systematic description of the long-time dynamics of resonantly
driven many-body systems, including those relevant to the orbital Josephson
effect.Comment: 14 pages, 9 figure
Regionalgeschichte in einer GrenzĂŒberschreitende Region, die TriRhena Region
La rĂ©conciliation franco-allemande constitue lâun des grands succĂšs de lâaprĂšs guerre. Pourtant on cherchera en vain des institutions de coopĂ©ration dans le domaine de lâhistoriographie rĂ©gionale. Lâhistoriographie et tout particuliĂšrement lâhistoriographie de lâĂ©poque contemporaine de ces Ă©tats jadis ennemis, la France et lâAllemagne, continue de se pratiquer Ă partir de cadre de rĂ©fĂ©rence nationaux. Notre contribution tente dâen rechercher les causes et de repĂ©rer les obstacles objectifs et Ă©motionnels qui sâopposent Ă une historiographie produit dâune coopĂ©ration transfrontaliĂšre.The reconciliation between France and Germany is to be considered one of the main post-war achievements. And yet, no trace of any sort of co-operation in the field of regional historiography is to be found. Historiography, particularly concerning contemporary times for two countries, France and Germany, that used to be enemies, was still carried out within national frameworks. Our contribution attempts to find out the causes and to spot the scientific and emotional obstacles preventing historiography as the result of a joint venture
Berthold von Deimling â ein Freund des Elsass?
Berthold von Deimling est, au dĂ©but du conflit, lâun des officiers les plus en vue de lâarmĂ©e impĂ©riale. Sa carriĂšre est marquĂ©e par des exploits individuels qui font la joie du Kaiser. Ce sabreur sans scrupules bĂ©nĂ©ficie ainsi de protections au plus haut niveau. Il est au premier plan lors de lâaffaire de Saverne et tous ses actes vont clairement dans le sens dâune mise au pas des Alsaciens. Il prend cependant le contre-pied de ses collĂšgues du haut-commandement militaire, qui accusent les recrues alsaciennes de manque de fiabilitĂ© voire de sympathie pour lâennemi. Est-ce par conviction, par calcul politique ou par dĂ©pit parce que, las de ses actions individuelles, la Oberste Heeresleitung finit par le mettre sur la touche ? Ce soldat pur et dur au dĂ©but de sa carriĂšre, dont une partie se dĂ©roule en Alsace, et qui durant le conflit est Ă la tĂȘte de troupes Ă forte proportion dâAlsaciens, finira par rejoindre le camp des pacifistes aprĂšs la Grande Guerre.In the beginning of WW I, Berthold von Deimling is one of the most popular generals of the german army. His brilliant career has brought him to the attention of the Kaiser and the high command. Commanding officer in Strasbourg, he is in the front line during the Zabern Affair and he clearly implements a policy of repression. Nevertheless during the war, he distingishes himself from his fellow generals by refusing to charge Alsatian recruits as unreliable and prone to enemy sympathies. Was it the result of real convictions or of political deception due to the standstill of his military career? The rigid soldier of the past became a pacifist in the postwar years.Berthold von Deimling ist zu Beginn des Krieges einer der meist beachtende Offiziere der Kaiserlichen Truppe. Sein Werdegang ist zur Freude des Kaisers, gekennzeichnet von herausragenden Einzelaktionen. Dieser skrupellose Haudegen genieĂt Protektion auf höchster Ebene. Er ist in verantwortungsvoller Position an der Zaberner AffĂ€re beteiligt und all sein Tun ist auf MaĂregelung der ElsĂ€sser ausgerichtet. Nun nimmt er aber eine ganz entgegengesetzte Position ein wie die seiner Kollegen von Oberkommando des Heeres, wenn diese die elsĂ€ssischen Rekruten der UnzuverlĂ€ssigkeit oder gar der Sympathie fĂŒr den Feind bezichtigen. Geschieht dies aus Ăberzeugung, politischem KalkĂŒl oder Verdruss darĂŒber dass die OHL, seiner AlleingĂ€nge leidig, ihn schlieĂlich aufs Abstellgleis schiebt. Dieser, am Anfang seiner Karriere, die zum Teil im Elsass und wĂ€hrend des Krieges als Kommandierender von Truppen mit groĂem Anteil von ElsĂ€ssern verlĂ€uft, ĂŒberzeugt harte Soldat, wird in das Lager der Pazifisten nach dem Weltkrieg wechseln
Multiconfiguration methods for the numerical simulation of photoionization processes of many-electron atoms
Numerical simulations present an indispensable way to the understanding of physical processes. In quantum mechanics, where the theoretical description is given in terms of the time-dependent Schrödinger equation (TDSE), the road is, however, difficult for any but the simplest systems. This is particularly true if one considers photoionization processes of atoms and mole\-cules, which at the same time require an accurate description of bound and continuum states, and therefore an extensive region of space to be sampled during the calculation. As a consequence, direct simulations of photoionization processes are currently only feasible for systems composed of up to three particles.
Despite this fundamental restriction, many physical effects can be essentially described by single- and two-electron models, among them high-order harmonic generation and non-sequential double-ionization of atoms and mole\-cules. A plethora of numerical investigations have been performed on atomic and molecular hydrogen and helium in the last two decades, and these have had a strong impact on the current understanding of photoionization. On the other hand, there are processes which are characterized by the interplay of a larger number of electrons, such as tunnel ionization, the Auger effect, and, to give a more recent example, the temporal delay between the photo-emission of electrons from different shells of neon and krypton. The many-electron character of these effects complicates the accurate, time-resolved simulation, and hence, no universally applicable method exists.
The present work develops two theoretical methods which are promising candidates for closing this gap, the multiconfigurational time-dependent Hartree-Fock (MCTDHF) method and the time-dependent restricted active space configuration interaction (TD-RASCI) method. Both represent the wavefunction in a linear subspace of the many-body Hilbert space and follow particular strategies to avoid the exponential problem. This makes it possible to treat a much larger number of electrons than with the direct techniques mentioned previously. The MCTDHF method is already well established in the scientific community, but has been applied only rarely to photoionization processes so far. On the other hand, the TD-RASCI method is an original contribution, and is applied for the first time to solutions of the time-dependent Schrödinger equation. Further, through the invention of appropriate, grid-like single-particle basis sets, we adjust these general approaches to efficiently treat photoionization processes in many-electron atoms and molecules.
After their thorough introduction, the MCTDHF and the TD-RASCI method are applied to several topics of photoionization physics. Among them is, first, the problem of calculating cross sections of atoms, for which we particularly consider helium, beryllium and neon. In most parts, this is accomplished for the first time in the framework of the developed methods.
Next, we consider the two-photon double-ionization of helium, which has attracted considerable interest in recent years, and perform simulations with the MCTDHF method. We further apply the TD-RASCI method to study two-color pump-probe process in beryllium, the simulation of which requires an explicitly time-dependent treatment. We find that both methods are highly appropriate for accurately describing correlated single-ionization processes. Moreover, the TD-RASCI method is able to model relevant doubly-excited states, which are of central importance for a variety of physical processes.Trotz dieser fundamentalen EinschrĂ€nkung lassen sich viele physikalische Effekte bereits durch Ein- und Zweiteilchenmodelle beschreiben, darunter zum Beispiel die Erzeugung höherer Harmonischer oder die nicht-sequentielle Doppelionisation. In diesem Sinne wurde in den letzten zwei Jahrzehnten eine Vielzahl numerischer Untersuchungen an atomarem und molekularem Wasserstoff sowie Helium unternommen, welche einen starken Einfluss auf das momentane VerstĂ€ndnis von Photoionisations-Prozessen nahmen. Andererseits gibt es jedoch physikalische Effekte, die durch das Zusammenwirken einer gröĂeren Anzahl von Elektronen gekennzeichnet sind, etwa die Tunnel-Ionisation, der Auger-Effekt oder die kĂŒrzlich entdeckte zeitliche Verzögerung in der Emission von Elektronen aus verschiedenen atomaren Schalen von Neon und Krypton. Der immanente Vielteilchencharakter macht die zeitaufgelöste Simulation dieser Prozesse zu einer schwierigen Aufgabe, fĂŒr die es bisher keine universell einsetzbare und gleichzeitig akkurate Methode
gibt.
In dieser Arbeit werden zwei theoretische Methoden zur Simulation von Photoionisations-Prozessen von Vielteilchenatomen und -molekĂŒlen vor\-gestellt, die vielversprechende Kandidaten zur SchlieĂung dieser vorhandenen LĂŒcke darstellen, nĂ€mlich die zeitabhĂ€ngige Multikonfigurations-Hartree-Fock (MCTDHF) Methode sowie die zeitabhĂ€ngige restricted-active-space Konfigurations-Wechselwirkungsmethode (TD-RASCI). Beide stellen die quantenmechanische Wellenfunktion in einem linearen Unterraum des Vielteilchen-Hilbertraumes dar und folgen dabei speziellen AnsĂ€tzen um das Problem des exponentiellen Wachstums zu vermeiden. Dadurch kann eine weitaus gröĂere Teilchenzahl als mit der zuvor erwĂ€hnten direkten Technik simuliert werden. Weiterhin werden diese zunĂ€chst sehr allgemeinen Methoden durch den Gebrauch geeigneter BasissĂ€tze auf die effiziente Beschreibung von Photoionisations-Prozessen optimiert.
Nach ihrer EinfĂŒhrung werden die MCTDHF und TD-RASCI Methode auf aktuelle Themen der Photoionisations-Physik angewandt. ZunĂ€chst wenden wir uns der Berechnung von Ionisations-Streuquerschnitten der Atome Helium, Beryllium und Neon zu, welche weitgehend zum ersten Male mithilfe der eingefĂŒhrten Methoden untersucht wird. Des Weiteren studieren wir die Zwei-Photonen-Ionisation von Helium, der in jĂŒngerer Zeit groĂes theoretisches Interesse zukam, mithilfe von Simulationen mit der MCTDHF Methode. Als grundlegendes Beispiel eines explizit zeitabhĂ€ngigen Prozesses wird darĂŒberhinaus die Pump-Probe Ionisation von Beryllium betrachtet. Unsere Untersuchungen zeigen, dass sowohl die MCTDHF Methode als auch die TD-RASCI Methode die Einelektronen-Photoionisation akkurat zu beschreiben vermag. Mithilfe der TD-RASCI Methode ist es zudem möglich, selektierte doppelt-angeregte ZustĂ€nde in die Rechnung zu integrieren, welche eine zentrale Rolle bei einer Vielzahl physikalischer Prozesse spielen
Two-photon ionization of Helium studied with the multiconfigurational time-dependent Hartree-Fock method
The multiconfigurational time-dependent Hartree-Fock method (MCTDHF) is
applied for simulations of the two-photon ionization of Helium. We present
results for the single- and double ionization from the groundstate for photon
energies in the non-sequential regime, and compare them to direct solutions of
the Schr\"odinger equation using the time-dependent (full) Configuration
Interaction method (TDCI). We find that the single-ionization is accurately
reproduced by MCTDHF, whereas the double ionization results correctly capture
the main trends of TDCI
Quantum Breathing Mode of Interacting Particles in a One-dimensional Harmonic Trap
Extending our previous work, we explore the breathing mode---the [uniform]
radial expansion and contraction of a spatially confined system. We study the
breathing mode across the transition from the ideal quantum to the classical
regime and confirm that it is not independent of the pair interaction strength
(coupling parameter). We present the results of time-dependent Hartree-Fock
simulations for 2 to 20 fermions with Coulomb interaction and show how the
quantum breathing mode depends on the particle number. We validate the accuracy
of our results, comparing them to exact Configuration Interaction results for
up to 8 particles
Quantum breathing mode of interacting particles in harmonic traps
The breathing mode â the uniform radial expansion and contraction of a system of interacting particles â is analyzed. Extending our previous work [Bauch et al 2009 Phys. Rev. B. 80 054515] we present a systematic analysis of the breathing mode for fermions with an inverse power law interaction potential w(r) ~ râdwith d = 1,2,3 in the whole range of coupling parameters. The results thus cover the range from the ideal "gas" to the Wigner crystal-like state. In addition to exact results for two particles obtained from a solution of the time-dependent Schrödinger equation we present results for N = 4,6 from multiconfiguration time-dependent Hartree-Fock simulations
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