Your search keyword '"Viefers, S."' showing total 100 results

1. Quantum Hall Physics - hierarchies and CFT techniques

Author

Hansson, T. H., Hermanns, M., Simon, S. H., and Viefers, S. F.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The fractional quantum Hall effect, being one of the most studied phenomena in condensed matter physics during the past thirty years, has generated many groundbreaking new ideas and concepts. Very early on it was realized that the zoo of emerging states of matter would need to be understood in a systematic manner. The first attempts to do this, by Haldane and Halperin, set an agenda for further work which has continued to this day. Since that time the idea of hierarchies of quasiparticles condensing to form new states has been a pillar of our understanding of fractional quantum Hall physics. In the thirty years that have passed since then, a number of new directions of thought have advanced our understanding of fractional quantum Hall states, and have extended it in new and unexpected ways. Among these directions is the extensive use of topological quantum field theories and conformal field theories, the application of the ideas of composite bosons and fermions, and the study of nonabelian quantum Hall liquids. This article aims to present a comprehensive overview of this field, including the most recent developments., Comment: added section on experimental status, 59 pages+references, 3 figures

Published

2016

2. Linear dependencies between Composite Fermion states

Author

Meyer, M. L., Liabøtrø, O., and Viefers, S.

Subjects

Condensed Matter - Quantum Gases, Condensed Matter - Strongly Correlated Electrons

Abstract

It has been observed that the composite fermion (CF) approach tends to overcount the number of linearly independent candidate states for fixed sets of quantum numbers [number of particles, total angular momentum, and (pseudo)spin if applicable]. That is, CF Slater determinants that are orthogonal before projection, may lead to wave functions that are identical, or possess linear dependencies, after projection. This has been pointed out both in the context of rotating bosons in the lowest Landau level, and for excited bands of the (fermionic) fractional quantum Hall effect. We present a systematic approach that enables us to reveal all linear dependencies between bosonic compact states in the lowest CF "cyclotron energy" sub-band, and almost all dependencies in higher sub-bands, at the level of the CF Slater determinants, i.e. before projection, which implies a major computational simplification. Our approach is introduced for so-called simple states of two-species rotating bosons, and then generalised to generic compact bosonic states, both one- and two-species. Some perspectives also apply to fermionic systems. The identities and linear dependencies we find, are analytically exact for "brute force" projection in the disk geometry.

Published

2015

3. Rotational properties of two-component Bose gases in the lowest Landau level

Author

Meyer, M. L., Sreejith, G. J., and Viefers, S.

Subjects

Condensed Matter - Quantum Gases

Abstract

We study the rotational (yrast) spectra of dilute two-component atomic Bose gases in the low angular momentum regime, assuming equal interspecies and intraspecies interaction. Our analysis employs the composite fermion (CF) approach including a pseudospin degree of freedom. While the CF approach is not {\it a priori} expected to work well in this angular momentum regime, we show that composite fermion diagonalization gives remarkably accurate approximations to low energy states in the spectra. For angular momenta $0 < L < M$ (where $N$ and $M$ denote the numbers of particles of the two species, and $M \geq N$), we find that the CF states span the full Hilbert space and provide a convenient set of basis states which, by construction, are eigenstates of the symmetries of the Hamiltonian. Within this CF basis, we identify a subset of the basis states with the lowest $\Lambda$-level kinetic energy. Diagonalization within this significally smaller subspace constitutes a major computational simplification and provides very close approximations to ground states and a number of low-lying states within each pseudospin and angular momentum channel.

Published

2014

4. Quantum rings for beginners II: Bosons versus fermions

Author

Manninen, M., Viefers, S., and Reimann, S. M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The purpose of this overview article, which can be viewed as a supplement to our previous review on quantum rings, [S. Viefers {\it et al}, Physica E {\bf 21} (2004), 1-35], is to highlight the differences of boson and fermion systems in one-dimensional (1D) and quasi-one-dimensional (Q1D) quantum rings. In particular this involves comparing their many-body spectra and other properties, in various regimes and models, including spinless and spinful particles, finite versus infinite interaction, and continuum versus lattice models. Our aim is to present the topic in a comprehensive way, focusing on small systems where the many-body problem can be solved exactly. Mapping out the similarities and differences between the bosonic and fermionic cases is of renewed interest due to the experimental developments in recent years, allowing for more controlled fabrication of both fermionic and bosonic quantum rings., Comment: 33 pages, 14 figures. Physica E, in press

Published

2012

5. A general approach to quantum Hall hierarchies

Author

Suorsa, J., Viefers, S., and Hansson, T. H.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The abelian hierarchy of quantum Hall states accounts for most of the states in the lowest Landau level, and there is evidence of a similar hierarchy of non-abelian states emanating from the {\nu} = 5/2 Moore-Read state in the second Landau level. Extending a recently developed formalism for hierarchical quasihole condensation, we present a theory that allows for the explicit construction of the ground state wave function, as well as its quasiparticle excitations, for any state based on the abelian hierarchy. We relate our construction to structures in rational conformal field theory and stress the importance of using coherent state wave functions which allows us to formulate an extension of the bulk - edge correspondence that was conjectured by Moore and Read. Finally, we study the proposed ground state wave functions in the limiting geometry of a thin torus and argue that they coincide with the known exact results., Comment: 18 pages

Published

2010

6. Quasihole condensates in quantum Hall liquids

Author

Suorsa, J., Viefers, S., and Hansson, T. H.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We develop a formalism to describe quasihole condensates in quantum Hall liquids and thereby extend the conformal field theory approach to the full hierarchy of spin-polarized Abelian states, and to several classes of non-Abelian hierarchical states. Most previously proposed spin-polarized quantum Hall wave functions appear as special cases. In this paper we explain the physical motivations for the approach, and exemplify it by explicitly constructing the level-two quasihole condensate state at filling fraction 2/3, and the two level-three states at 5/13 and 5/7 which are built from combinations of quasielectron and quasihole condensates., Comment: 16 pages

Published

2010

7. Quantum Hall quasielectron operators in conformal field theory

Author

Hansson, T. H., Hermanns, M., and Viefers, S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

In the conformal field theory (CFT) approach to the quantum Hall effect, the multi-electron wave functions are expressed as correlation functions in certain rational CFTs. While this approach has led to a well-understood description of the fractionally charged quasihole excitations, the quasielectrons have turned out to be much harder to handle. In particular, forming quasielectron states requires non-local operators, in sharp contrast to quasiholes that can be created by local chiral vertex operators. In both cases, the operators are strongly constrained by general requirements of symmetry, braiding and fusion. Here we construct a quasielectron operator satisfying these demands and show that it reproduces known good quasiparticle wave functions, as well as predicts new ones. In particular we propose explicit wave functions for quasielectron excitations of the Moore-Read Pfaffian state. Further, this operator allows us to explicitly express the composite fermion wave functions in the positive Jain series in hierarchical form, thus settling a longtime controversy. We also critically discuss the status of the fractional statistics of quasiparticles in the Abelian hierarchical quantum Hall states, and argue that our construction of localized quasielectron states sheds new light on their statistics. At the technical level we introduce a generalized normal ordering, that allows us to "fuse" an electron operator with the inverse of an hole operator, and also an alternative approach to the background charge needed to neutralize CFT correlators. As a result we get a fully holomorphic CFT representation of a large set of quantum Hall wave functions., Comment: minor changes, published

Published

2009

8. Quantum Hall quasielectrons - Abelian and non-Abelian

Author

Hansson, T. H., Hermanns, M., Regnault, N., and Viefers, S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The quasiparticles in Quantum Hall liquids carry fractional charge and obey fractional quantum statistics. Of particular recent interest are those with non-Abelian statistics, since their braiding properties could in principle be used for robust coding of quantum information. There is already a good theoretical understanding of quasiholes both in Abelian and non-Abelian QH states. Here we develop conformal field theory methods that allow for an equally precise description of quasielectrons, and explicitly construct two- and four-quasielectron excitations of the non-Abelian Moore-Read state., Comment: figure added

Published

2008

9. Hierarchy wave functions--from conformal correlators to Tao-Thouless states

Author

Bergholtz, E. J., Hansson, T. H., Hermanns, M., Karlhede, A., and Viefers, S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

Laughlin's wave functions, describing the fractional quantum Hall effect at filling factors $\nu=1/(2k+1)$, can be obtained as correlation functions in conformal field theory, and recently this construction was extended to Jain's composite fermion wave functions at filling factors $\nu=n/(2kn+1)$. Here we generalize this latter construction and present ground state wave functions for all quantum Hall hierarchy states that are obtained by successive condensation of quasielectrons (as opposed to quasiholes) in the original hierarchy construction. By considering these wave functions on a cylinder, we show that they approach the exact ground states, the Tao-Thouless states, when the cylinder becomes thin. We also present wave functions for the multi-hole states, make the connection to Wen's general classification of abelian quantum Hall fluids, and discuss whether the fractional statistics of the quasiparticles can be analytically determined. Finally we discuss to what extent our wave functions can be described in the language of composite fermions., Comment: 9 pages

Published

2007

10. Conformal Field Theory of Composite Fermions

Author

Hansson, T. H., Chang, C. -C., Jain, J. K., and Viefers, S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We show that the quantum Hall wave functions for the ground states in the Jain series can be exactly expressed in terms of correlation functions of local vertex operators, V_n, corresponding to composite fermions in the n:th composite-fermion (CF) Landau level. This allows for the powerful mathematics of conformal field theory to be applied to the successful CF phenomenology. Quasiparticle and quasihole states are expressed as correlators of anyonic operators with fractional (local) charge, allowing a simple algebraic understanding of their topological properties that are not manifest in the CF wave functions., Comment: 1 color figure; new result on exact correspondence between CF wave functions and CFT correlators included; presentation made less technical; some references changed

Published

2006

11. Effects of surface forces and phonon dissipation in a three-terminal nano relay

Author

Jonsson, L. M., Nord, T., Viefers, S., and Kinaret, J. M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We have performed a theoretical analysis of the operational characteristics of a carbon-nanotube-based three-terminal nanorelay. We show that short range and van der Waals forces have a significant impact on the characteristics of the relay and introduce design constraints. We also investigate the effects of dissipation due to phonon excitation in the drain contact, which changes the switching time scales of the system, decreasing the longest time scale by two orders of magnitude. We show that the nanorelay can be used as a memory element and investigate the dynamics and properties of such a device.

Published

2003

12. Energy spectrum, persistent current and electron localization in quantum rings

Author

Manninen, M., Koskinen, P., Koskinen, M., Deo, P. Singha, Reimann, S. M., and Viefers, S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

Energy spectra of quasi-one-dimensional quantum rings with a few electrons are studied using several different theoretical methods. Discrete Hubbard models and continuum models are shown to give similar results governed by the special features of the one-dimensionality. The energy spectrum of the many-body system can be described with a rotation-vibration spectrum of a 'Wigner molecule' of 'localized' electrons, combined with the spin-state determined from an effective antiferromagnetic Heisenberg Hamiltonian. The persistent current as a function of magnetic flux through the ring shows periodic oscillations arising from the 'rigid rotation' of the electron ring. For polarized electrons the periodicity of the oscillations is always the flux quantum Phi_0. For nonpolarized electrons the periodicity depends on the strength of the effective Heisenberg coupling and changes from \Phi_0 first to Phi_0/2 and eventually to Phi_0/N when the ring gets narrower., Comment: 6 pages, 4 figures

Published

2003

13. Quantum rings for beginners: Energy spectra and persistent currents

Author

Viefers, S., Koskinen, P., Deo, P. Singha, and Manninen, M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

Theoretical approaches to one-dimensional and quasi-one-dimensional quantum rings with a few electrons are reviewed. Discrete Hubbard-type models and continuum models are shown to give similar results governed by the special features of the one-dimensionality. The energy spectrum of the many-body states can be described by a rotation-vibration spectrum of a 'Wigner molecule' of 'localized' electrons, combined with the spin-state determined from an effective antiferromagnetic Heisenberg Hamiltonian. The persistent current as a function of the magnetic flux through the ring shows periodic oscillations arising from the 'rigid rotation' of the electron ring. For polarized electrons the periodicity of the oscillations is always the flux quantum Phi_0. For nonpolarized electrons the periodicity depends on the strength of the effective Heisenberg coupling and changes from Phi_0 first to Phi_0/2 and eventually to Phi_0/N when the ring gets narrower., Comment: 27 pages, 22 figures

Published

2003

14. Effective photon-photon interaction in a two-dimensional 'photon fluid'

Author

Chiao, R. Y., Hansson, T. H., Leinaas, J. M., and Viefers, S.

Subjects

Physics - Atomic Physics, Condensed Matter, Quantum Physics

Abstract

We formulate an effective theory for the atom-mediated photon-photon interactions in a two-dimensional ``photon fluid'' confined in a Fabry-Perot resonator. With the atoms modelled by a collection of anharmonic Lorentz oscillators, the effective interaction is evaluated to second order in the coupling constant (the anharmonicity parameter). The interaction has the form of a renormalized two-dimensional delta-function potential, with the renormalization scale determined by the physical parameters of the system, such as density of atoms and the detuning of the photons relative to the resonance frequency of the atoms. For realistic values of the parameters, the perturbation series has to be resummed, and the effective interaction becomes independent of the ``bare'' strength of the anharmonic term. The resulting expression for the non-linear Kerr susceptibility, is parametrically equal to the one found earlier for a dilute gas of two-level atoms. Using our result for the effective interaction parameter, we derive conditions for the formation of a photon fluid, both for Rydberg atoms in a microwave cavity and for alkali atoms in an optical cavity., Comment: 25 pages (revtex4), including 2 figures

Published

2003

15. A Carbon Nanotube Based Nanorelay

Author

Kinaret, J. M., Nord, T., and Viefers, S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We investigate the operational characteristics of a nanorelay based on a conducting carbon nanotube placed on a terrace in a silicon substrate. The nanorelay is a three terminal device that acts as a switch in the GHz regime. Potential applications include logic devices, memory elements, pulse generators, and current or voltage amplifiers., Comment: 4 pages, 3 figures

Published

2002

16. Many-body spectrum and particle localization in quantum dots and finite rotating Bose condensates

Author

Manninen, M., Viefers, S., Koskinen, M., and Reimann, S. M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The yrast spectra (i.e. the lowest states for a given total angular momentum) of quantum dots in strong magnetic fields, are studied in terms of exact numerical diagonalization and analytic trial wave functions. We argue that certain features (cusps) in the many-body spectrum can be understood in terms of particle localization due to the strong field. A new class of trial wavefunctions supports the picture of the electrons being localized in Wigner molecule-like states consisting of consecutive rings of electrons, with low-lying excitations corresponding to rigid rotation of the outer ring of electrons. The geometry of the Wigner molecule is independent of interparticle interactions and the statistics of the particles., Comment: 11 pages, 7 figures. To appear in Phys. Rev. B

Published

2001

17. Exclusion Statistics in a two-dimensional trapped Bose gas

Author

Viefers, S., Hansson, T. H., and Leinaas, J. M.

Subjects

Condensed Matter - Statistical Mechanics

Abstract

We briefly explain the notion of exclusion statistics and in particular discuss the concept of an ideal exclusion statistics gas. We then review a recent work where it is demonstrated that a {\em two-dimensional} Bose gas with repulsive delta function interactions obeys ideal exclusion statistics, with a fractional parameter related to the interaction strength., Comment: 10 pages, RevTeX. Proceedings of the Salerno workshop "Theory of Quantum Gases and Quantum Coherence", to appear in a special issue of J.Phys. B, Dec. 2001

Published

2001

18. Exclusion Statistics in a trapped two-dimensional Bose gas

Author

Hansson, T. H., Leinaas, J. M., and Viefers, S.

Subjects

Condensed Matter - Statistical Mechanics

Abstract

We study the statistical mechanics of a two-dimensional gas with a repulsive delta function interaction, using a mean field approximation. By a direct counting of states we establish that this model obeys exclusion statistics and is equivalent to an ideal exclusion statistics gas., Comment: 3 pages; minor changes in notation; typos corrected

Published

2000

19. Current-spin-density functional study of persistent currents in quantum rings

Author

Viefers, S., Deo, P. Singha, Reimann, S. M., Manninen, M., and Koskinen, M.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We present a numerical study of persistent currents in quantum rings using current spin density functional theory (CSDFT). This formalism allows for a systematic study of the joint effects of both spin, interactions and impurities for realistic systems. It is illustrated that CSDFT is suitable for describing the physical effects related to Aharonov-Bohm phases by comparing energy spectra of impurity-free rings to existing exact diagonalization and experimental results. Further, we examine the effects of a symmetry-breaking impurity potential on the density and current characteristics of the system and propose that narrowing the confining potential at fixed impurity potential will suppress the persistent current in a characteristic way., Comment: 7 pages REVTeX, including 8 postscript figures

Published

2000

20. Bose condensates at high angular momenta

Author

Viefers, S., Hansson, T. H., and Reimann, S. M.

Subjects

Condensed Matter

Abstract

We exploit the analogy with the Quantum Hall (QH) system to study weakly interacting bosons in a harmonic trap. For a $\delta$-function interaction potential the ``yrast'' states with $L\ge N(N-1)$ are degenerate, and we show how this can be understood in terms of Haldane exclusion statistics. We present spectra for 4 and 8 particles obtained by numerical and algebraic methods, and demonstrate how a more general hard-core potential lifts the degeneracies on the yrast line. The exact wavefunctions for N=4 are compared with trial states constructed from composite fermions (CF), and the possibility of using CF-states to study the low L region at high N is discussed., Comment: 6 pages, including 4 figures and 3 tables

Published

2000

21. Broken Symmetries in the Reconstruction of v=1 Quantum Hall Edges

Author

Reimann, S. M., Koskinen, M., Viefers, S., Manninen, M., and Mottelson, B.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Spin-polarized reconstruction of the v=1 quantum Hall edge is accompanied by a spatial modulation of the charge density along the edge. We find that this is also the case for finite quantum Hall droplets: current spin density functional calculations show that the so-called Chamon-Wen edge forms a ring of apparently localized electrons around the maximum density droplet (MDD). The boundaries of these different phases qualitatively agree with recent experiments. For very soft confinement, Chern-Simons Ginzburg-Landau theory indicates formation of a non-translational invariant edge with vortices (holes) trapped in the edge region., Comment: Proceedings of the EP2DS, Ottawa (1999) (submitted to Physica E)

Published

1999

22. The effect of interactions on Bose-Einstein condensation in a two-dimensional harmonic trap

Author

Bhaduri, R. K., Reimann, S. M., Viefers, S., Choudhury, A. Ghose, and Srivastava, M. K.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Statistical Mechanics

Abstract

A dilute bose gas in a quasi two-dimensional harmonic trap and interacting with a repulsive two-body zero-range potential of fixed coupling constant is considered. Using the Thomas-Fermi method, it is shown to remain in the same uncondensed phase as the temperature is lowered. Its density profile and energy are identical to that of an ideal gas obeying the fractional exclusion statistics of Haldane. PACS: ~03.75.Fi, 05.30.Jp, 67.40.Db, 05.30.-d, Comment: extended version; to appear in J. Phys. B (special issue on BEC)

Published

1999

23. Edge Theories for Polarized Quantum Hall States

Author

Hansson, T. H. and Viefers, S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Starting from recently proposed bosonic mean field theories for fully and partially polarized quantum Hall states, we construct corresponding effective low energy theories for the edge modes. The requirements of gauge symmetry and invariance under global O(3) spin rotations, broken only by a Zeeman coupling, imply boundary conditions that allow for edge spin waves. In the generic case, these modes are chiral, and the spin stiffness differs from that in the bulk. For the case of a fully polarized $\nu=1$ state, our results agree with previous Hartree-Fock calculations., Comment: 15 pages (number of pages has been reduced by typesetting in RevTeX); 2 references added

Published

1999

24. Field theory of anyons in the lowest Landau level

Author

Hansson, T. H., Leinaas, J. M., and Viefers, S.

Subjects

High Energy Physics - Theory

Abstract

We construct a field theory for anyons in the lowest Landau level starting from the $N$-particle description, and discuss the connection to the full field theory of anyons defined using a statistical gauge potential. The theory is transformed to free form, with the fields defined on the circle and satisfying modified commutation relations. The Fock space of the anyons is discussed, and the theory is related to that of edge excitations of an anyon droplet in a harmonic oscillator well., Comment: 27 pages (incl. 2 figs.) in standard Latex. Substantially revised version with a section on the connection to Luttinger liquids

Published

1994

25. Ideal quantum gases in two dimensions

Author

Viefers, S., Ravndal, F., and Haugset, T.

Subjects

High Energy Physics - Theory

Abstract

Thermodynamic properties of non-relativistic bosons and fermions in two spatial dimensions and without interactions are derived. All the virial coefficients are the same except for the second, for which the signs are opposite. This results in the same specific heat for the two gases. Existing equations of state for the free anyon gas are also discussed and shown to break down at low temperatures or high densities., Comment: 17 pages

Published

1994

26. Ideal quantum gases in two dimensions

Author

Viefers, S., Ravndal, F., and Haugset, T.

Subjects

Bosons -- Research, Fermions -- Research, Particles (Nuclear physics) -- Research, Thermodynamics -- Research, Physics

Abstract

Thermodynamic properties of nonrelativistic bosons and fermions in two spatial dimensions and without interactions are derived. All the virial coefficients are the same except for the second, for which the signs are opposite. This results in the same specific heat for the two gases. Existing equations of state for the free anyon gas are also discussed and shown to break down at low temperatures or high densities.

Published

1995

27. Broken symmetries in the reconstruction of ν=1 quantum Hall edges

Author

Reimann, S.M, Koskinen, M, Viefers, S, Manninen, M, and Mottelson, B

Published

2000

28. Effects of surface forces and phonon dissipation in a three-terminal nanorelay.

Author

Jonsson, L.M., Nord, T., Kinaret, J.M., and Viefers, S.

Subjects

PHONONS, QUASIPARTICLES, CARBON, NANOTUBES, ENERGY dissipation, VAN der Waals forces

Abstract

We have performed a theoretical analysis of the operational characteristics of a carbon–nanotube-based three-terminal nanorelay. We show that short range and van der Waals forces have a significant impact on the characteristics of the relay and introduce design constraints. We also investigate the effects of dissipation due to phonon excitation in the drain contact, which changes the switching time scales of the system, decreasing the longest time scale by 2 orders of magnitude. We show that the nanorelay can be used as a memory element and investigate the dynamics and properties of such a device. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2004

29. Quantum Hall physics : Hierarchies and conformal field theory techniques

Author

Hansson, Thors Hans, Hermanns, M., Simon, S. H., Viefers, S. F., Hansson, Thors Hans, Hermanns, M., Simon, S. H., and Viefers, S. F.

Abstract

The fractional quantum Hall effect, being one of the most studied phenomena in condensed matter physics during the past 30 years, has generated many ground-breaking new ideas and concepts. Very early on it was realized that the zoo of emerging states of matter would need to be understood in a systematic manner. The first attempts to do this, by Haldane and Halperin, set an agenda for further work which has continued to this day. Since that time the idea of hierarchies of quasiparticles condensing to form new states has been a pillar of our understanding of fractional quantum Hall physics. In the 30 years that have passed since then, a number of new directions of thought have advanced our understanding of fractional quantum Hall states and have extended it in new and unexpected ways. Among these directions is the extensive use of topological quantum field theories and conformal field theories, the application of the ideas of composite bosons and fermions, and the study of non-Abelian quantum Hall liquids. This article aims to present a comprehensive overview of this field, including the most recent developments., QC 20170620

Published

2017

30. Quantum Hall physics: Hierarchies and conformal field theory techniques

Author

Hansson, T. H., Hermanns, M., Simon, S. H., Viefers, S. F., Hansson, T. H., Hermanns, M., Simon, S. H., and Viefers, S. F.

Abstract

The fractional quantum Hall effect, being one of the most studied phenomena in condensed matter physics during the past 30 years, has generated many ground-breaking new ideas and concepts. Very early on it was realized that the zoo of emerging states of matter would need to be understood in a systematic manner. The first attempts to do this, by Haldane and Halperin, set an agenda for further work which has continued to this day. Since that time the idea of hierarchies of quasiparticles condensing to form new states has been a pillar of our understanding of fractional quantum Hall physics. In the 30 years that have passed since then, a number of new directions of thought have advanced our understanding of fractional quantum Hall states and have extended it in new and unexpected ways. Among these directions is the extensive use of topological quantum field theories and conformal field theories, the application of the ideas of composite bosons and fermions, and the study of non-Abelian quantum Hall liquids. This article aims to present a comprehensive overview of this field, including the most recent developments.

Published

2017

31. Quantum Hall physics: Hierarchies and conformal field theory techniques

Author

Hansson, T. H., primary, Hermanns, M., additional, Simon, S. H., additional, and Viefers, S. F., additional

Published

2017

32. Effects of surface forces and phonon dissipation in a three-terminal nanorelay

Author

Nord, T., Jonsson, L.M., Kinaret, J.M., and Viefers, S.

Subjects

Carbon compounds -- Properties, Carbon compounds -- Analysis, Phonons -- Properties, Phonons -- Analysis, Physics

Abstract

A theoretical analysis of the operational characteristics of a carbon-nanotube-based three-terminal nanorelay is performed. It is shown that short range and van der Waals (VDW) have a significant impact on the characteristics of the relay and introduce design constraints.

Published

2004

33. Linear dependencies between composite fermion states

Author

Meyer, M L, primary, Liabøtrø, O, additional, and Viefers, S, additional

Published

2016

34. Rotational properties of two-component Bose gases in the lowest Landau level

Author

Meyer, M. L., primary, Sreejith, G. J., additional, and Viefers, S., additional

Published

2014

35. A general approach to quantum Hall hierarchies

Author

Suorsa, J., Viefers, S., Hansson, Thors Hans, Suorsa, J., Viefers, S., and Hansson, Thors Hans

Abstract

The Abelian hierarchy of quantum Hall states accounts for most of the states in the lowest Landau level, and there is evidence of a similar hierarchy of non-Abelian states emanating from the nu = 5/2 Moore-Read state in the second Landau level. Extending a recently developed formalism for hierarchical quasihole condensation, we present a theory that allows for the explicit construction of the ground state wave function, as well as its quasiparticle excitations, for any state based on the Abelian hierarchy. We relate our construction to structures in rational conformal field theory and stress the importance of using coherent state wave functions, which allows us to formulate an extension of the bulk-edge correspondence that was conjectured by Moore and Read. Finally, we study the proposed ground state wave functions in the limiting geometry of a thin torus and argue that they coincide with the known exact results., authorCount :3

Published

2011

36. Quasihole condensates in quantum Hall liquids

Author

Suorsa, J., Viefers, S., Hansson, Thors Hans, Suorsa, J., Viefers, S., and Hansson, Thors Hans

Abstract

We develop a formalism to describe quasihole condensates in quantum Hall liquids and thereby extend the conformal field theory approach to the full hierarchy of spin-polarized Abelian states and to several classes of non-Abelian hierarchical states. Most previously proposed spin-polarized quantum Hall wave functions appear as special cases. In this paper we explain the physical motivations for the approach, and exemplify it by explicitly constructing the level-two quasihole condensate state at filling fraction 2/3, and the two level-three states at 5/13 and 5/7 which are built from combinations of quasielectron and quasihole condensates., authorCount :3

Published

2011

37. Composite-fermion wave functions as correlators in conformal field theory

Author

Hansson, T. H., Chang, C. -C, Jain, J. K., Viefers, S., Hansson, T. H., Chang, C. -C, Jain, J. K., and Viefers, S.

Abstract

It is known that a subset of fractional quantum Hall wave functions has been expressed as conformal field theory (CFT) correlators, notably the Laughlin wave function [Phys. Rev. Lett. 50, 1395 (1983)] at filling factor nu=1/m (m odd) and its quasiholes, and the Pfaffian wave function at nu=1/2 and its quasiholes. We develop a general scheme for constructing composite-fermion (CF) wave functions from conformal field theory. Quasiparticles at nu=1/m are created by inserting anyonic vertex operators, P-1/m(z), that replace a subset of the electron operators in the correlator. The one-quasiparticle wave function is identical to the corresponding CF wave function, and the two-quasiparticle wave function has correct fractional charge and statistics and is numerically almost identical to the corresponding CF wave function. We further show how to exactly represent the CF wave functions in the Jain series nu=s/(2sp+1) [Phys. Rev. Lett. 63, 199 (1989); Composite Fermions (Cambridge University Press, Cambridge, 2007)] as the CFT correlators of a new type of fermionic vertex operators, V-p,V-n(z), constructed from n free compactified bosons; these operators provide the CFT representation of composite fermions carrying 2p flux quanta in the nth CF Landau level. We also construct the corresponding quasiparticle and quasihole operators and argue that they have the expected fractional charge and statistics. For filling fractions 2/5 and 3/7, we show that the chiral CFTs that describe the bulk wave functions are identical to those given by Wen's general classification [Int. J. Mod. Phys. B 6, 1711 (1992); Adv. Phys. 44, 405 (1995)] of quantum Hall states in terms of K matrices and l and t vectors, and we propose that to be generally true. Our results suggest a general procedure for constructing quasiparticle wave functions for other fractional Hall states, as well as for constructing ground states at filling fractions not contained in the principal Jain series., authorCount :4

Published

2007

38. Conformal field theory of composite fermions

Author

Hansson, Thor Hans, Chang, C. -C, Jain, J. K., Viefers, S., Hansson, Thor Hans, Chang, C. -C, Jain, J. K., and Viefers, S.

Abstract

We show that the quantum Hall wave functions for the ground states in the Jain series nu=n/(2np+1) can be exactly expressed in terms of correlation functions of local vertex operators V-n corresponding to composite fermions in the nth composite-fermion (CF) Landau level. This allows for the powerful mathematics of conformal field theory to be applied to the successful CF phenomenology. Quasiparticle and quasihole states are expressed as correlators of anyonic operators with fractional (local) charge, allowing a simple algebraic understanding of their topological properties that are not manifest in the CF wave functions. Moreover, our construction shows how the states in the nu=n/(2np+1) Jain sequence may be interpreted as condensates of quasiparticles., authorCount :4

Published

2007

39. Quantum rings for beginners II: Bosons versus fermions

Author

Manninen, M., primary, Viefers, S., additional, and Reimann, S.M., additional

Published

2012

40. A general approach to quantum Hall hierarchies

Author

Suorsa, J, primary, Viefers, S, additional, and Hansson, T H, additional

Published

2011

41. Quasihole condensates in quantum Hall liquids

Author

Suorsa, J., primary, Viefers, S., additional, and Hansson, T. H., additional

Published

2011

42. Asymptotically exact trial wavefunctions for yrast states of rotating Bose gases

Author

Viefers, S, primary and Taillefumier, M, additional

Published

2010

43. Quantum Hall quasielectron operators in conformal field theory

Author

Hansson, T. H., primary, Hermanns, M., additional, and Viefers, S., additional

Published

2009

44. Conformal Field Theory Approach to Abelian and Non-Abelian Quantum Hall Quasielectrons

Author

Hansson, T. H., primary, Hermanns, M., additional, Regnault, N., additional, and Viefers, S., additional

Published

2009

45. Quantum Hall hierarchy wave functions: From conformal correlators to Tao-Thouless states

Author

Bergholtz, E. J., primary, Hansson, T. H., additional, Hermanns, M., additional, Karlhede, A., additional, and Viefers, S., additional

Published

2008

46. Composite-fermion wave functions as correlators in conformal field theory

Author

Hansson, T. H., primary, Chang, C.-C., additional, Jain, J. K., additional, and Viefers, S., additional

Published

2007

47. Conformal Field Theory of Composite Fermions

Author

Hansson, T. H., primary, Chang, C.-C., additional, Jain, J. K., additional, and Viefers, S., additional

Published

2007

48. ENERGY SPECTRUM, PERSISTENT CURRENT AND ELECTRON LOCALIZATION IN QUANTUM RINGS

Author

MANNINEN, M., primary, KOSKINEN, P., additional, KOSKINEN, M., additional, DEO, P. SINGHA, additional, REIMANN, S.M., additional, and VIEFERS, S., additional

Published

2005

49. High frequency properties of a CNT-based nanorelay

Author

Jonsson, L M, primary, Axelsson, S, additional, Nord, T, additional, Viefers, S, additional, and Kinaret, J M, additional

Published

2004

50. Two-dimensional photon fluid : effective photon–photon interaction and physical realizations

Author

Chiao, R Y, primary, Hansson, T H, additional, Leinaas, J M, additional, and Viefers, S, additional

Published

2004