Wyniki wyszukiwania - Biblioteka Nauki

1

Product of Projective Representations in Description of Multi-Electron States in An External Magnetic Field

100%

Florek W.

Acta Physica Polonica A

|

1999

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tom 95

|

nr 6

871-880

EN

In this paper all inequivalent irreducible projective representations of the two-dimensional translation group for a given factor system are determined. A normalized, i.e. corresponding to the Landau gauge, factor system is considered. Obtained representations directly lead to concept of magnetic cells and to periodicity with respect to the charge of a moving particle. It is also shown that the quantization condition is imposed on the product qH of the charge q and the magnitude of magnetic field H. The Kronecker product of such representations is considered and it is proven that the multiplication of representations corresponds to the addition of charges of particles moving in a given external magnetic field. In general, coupling of d representations corresponds to d-particle states. Presented results can be applied in any problem related to two-dimensional electron gas in a magnetic field, for example in the fractional quantum Hall effect or high temperature superconductivity.

2

Local Gauge and Magnetic Translation Groups

100%

Florek W.

Acta Physica Polonica A

|

1997

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tom 92

|

nr 2

399-402

EN

The magnetic translation group was introduced as a set of operators T(R)=exp[-iR·(p-eA/c)/h]. However, these operators commute with the Hamiltonian for an electron in a periodic potential and a uniform magnetic field if the vector potential A (the gauge) is chosen in a symmetric way. It is showed that a local gauge field A_{R}(r) on a crystal lattice leads to operators, which commute with the Hamiltonian for any (global) gauge field A = A(r). Such choice of the local gauge determines a factor system ω(R,R') = T(R)T(R')T(R+R')^{-1}, which depends on a global gauge only. Moreover, for any potential A a commutator T(R)T(R')T(R)^{-1}T(R')^{-1} depends only on the magnetic field and not on the gauge.

3

Magnetic Translations for a Spatially Periodic Magnetic Field

100%

Florek W.

Acta Physica Polonica A

|

2000

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tom 97

|

nr 4

619-628

EN

It is shown that in the case of a free electron in a spatially periodic magnetic field the concept of magnetic translations operators is still valid and, moreover, these operators can be defined in the same way as for a Bloch electron in a uniform magnetic field. The results can be a useful tool in the investigation of recently observed phenomena in 2D electron gas with spatially modulated density.

4

Irreducible Basis for Permutation Representations

100%

Florek W.

Acta Physica Polonica A

|

1999

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tom 96

|

nr 6

699-712

EN

For a given finite group G its permutation representation P, i.e. an action on an n-element set, is considered. Introducing a vector space L as a set of formal linear combinations of | j 〉, 1 ≤ j ≤ n, the representation P is linearized. In general, the representation obtained is reducible, so it is decomposed into irreducible components. Decomposition of L into invariant subspaces is determined by a unitary transformation leading from the basis { | j 〉} to a new, symmetry adapted or irreducible, basis { |Γrγ〉}. This problem is quite generally solved by means of the so-called Sakata matrix. Some possible physical applications are indicated.

5

Equations of Motion for a Charged Particle in n-Dimensional Magnetic Field

63%

Florek W. , Thomas M.

Acta Physica Polonica A

|

2000

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tom 97

|

nr 5

935-938

EN

The equation of motion for a charged particle moving in the n-dimensional constant magnetic field is obtained for any linear gauge and any metric tensor by generalization of Johnson and Lipmann's approach. It allows to consider the magnetic orbits in the n-dimensional space. It is shown that the movement of a particle can always be decomposed into a number of two-dimensional cyclotronic motions and a free particle part.

6

Small Antiferromagnetic Spin Systems: Just beyond the Rotational Band Model

63%

Florek W. , Kaliszan L.

Acta Physica Polonica A

|

2015

|

tom 127

|

nr 2

330-332

EN

Two systems of spins s=1/2 with the Heisenberg interactions are investigated: (i) an equilateral trapezoid and (ii) a regular hexagon. Both cases are compared with the corresponding sublattice Hamiltonians to determine splitting and mixing of energy levels with a given total spin of sublattices. It is shown that small modifications of the Hamiltonian parameters may significantly change (magnetic) properties of the eigenstates, especially probability of finding system in a state with determined value of the sublattice total spin.

7

Wreath Product in Factorization of Holosymmetric Group

63%

Florek W. , Lulek T.

Acta Physica Polonica A

|

1991

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tom 79

|

nr 6

843-852

EN

The holosymmetric group Q of an n-dimensional crystal lattice determined by a given lattice basis B is considered. This group is contained in the n-dimensional orthogonal group O(n) so its elements preserve the orthogonality of basis vectors and their lengths. These conditions yield the decomposition of lattice basis into orthogonal sublattices and next the factorization of the holosymmetric group, which can be written as a direct product of complete monomial groups of k-dimensional (k ≤ n) holosymmetric groups. Simple, decomposable and primitive holosymmetric groups are discussed. The results for n ≤ 4 are presented.

8

Universal Sequence of the Ground States and Energy Level Ordering in Frustrated Antiferromagnetic Rings with a Single Bond Defect

51%

Antkowiak M. , Florek W. , Kamieniarz G.

Acta Physica Polonica A

|

2017

|

tom 131

|

nr 4

890-892

EN

The universal sequence of the ground states for antiferromagnetic frustrated rings with the odd number of the local spins s and a single bond defect α described by the isotropic Heisenberg Hamiltonian is discussed. The Lieb-Mattis energy level ordering in a pentanuclear ring is revealed and the arising magnetisation steps are demonstrated.

9

Highly Degenerated Ground States in Some Rings Modeled by the Ising Spins with Competing Interactions

51%

Florek W. , Antkowiak M. , Kamieniarz G. , Jaśniewicz-Pacer K.

Acta Physica Polonica A

|

2018

|

tom 133

|

nr 3

411-413

EN

We discuss three Ising ring systems with competing interactions which are analogs of quantum systems and we show that they exhibit similar properties. In particular, the archetypal system of three antiferromagnetically coupled spins s has two magnetically degenerated ground states with |M|=s, when 0

10

Collinear and Non-Collinear Configurations in Classical Geometrically Frustrated Ring-Shaped Systems

51%

Grajek M. , Kopyciuk T. , Florek W. , Marlewski A.

Acta Physica Polonica A

|

2018

|

tom 133

|

nr 3

417-419

EN

Geometrically frustrated quantum spin systems, with competing antiferromagnetic couplings, show the Kahn degenerate frustration for some specific values of Heisenberg Hamiltonian parameters. It has been recently shown for rings with a defect bond and centered rings. In the case of classical counterparts of these systems, degenerated configurations with the lowest energy are present for the energy function parameter greater than a certain threshold. In these domains such configurations are planar but non-collinear with continuous changes of the net magnetic moment with respect to the Hamiltonian parameter. Outside these domains there is unique collinear ground state configuration (neglecting choice of the net magnetic moment direction). However, these collinear configurations are the same in both non-frustrated and geometrically frustrated domains. Numerically exact calculations for quantum systems strongly confirm that determined properties of their classical counterparts realize the classical limit s→∞.

11

Modeling of the Experimental Molecular-Based Ring-Shaped Nanomagnets

38%

Antkowiak M. , Kozłowski P. , Musiał G. , Florek W. , Kamieniarz G. , Esposito F.

Acta Physica Polonica A

|

2010

|

tom 118

|

nr 5

965-966

EN

Quantum transfer matrix technique and numerically exact diagonalization method are applied to the Heisenberg spin systems to model ring-shaped molecules. Two cases are investigated: (i) a dozen of S = 1 spins with additional biquadratic exchange and (ii) a dimetallic molecule Cr_7Cd, where it is assumed that exchange anisotropy is determined in a local coordination system. In the latter case the calculated susceptibility is compared with experimental results.

12

Magnet with Ferromagnetic Nearest-Neighbor and Antiferromagnetic Next-Nearest-Neighbor Exchange Interactions

32%

Szymczak R. , Szymczak H. , Kamieniarz G. , Szukowski G. , Jaśniewicz-Pacer K. , Florek W. , Maltsev V. , Babonas G.

Acta Physica Polonica A

|

2009

|

tom 115

|

nr 5

925-930

EN

Magnetic properties of Pb[Cu(SO_4)(OH)_2] (linarite) natural single crystals were studied by magnetization and specific heat measurements. The angular dependences of magnetization were revealed which correlated with the regularities of the crystal structure. At about 2.8 K this quasi-one-dimensional Heisenberg system undergoes a phase transition to the long-range antiferromagnetic order with antiparallel magnetic moments aligned probably along the b-axis. The antiferromagnetic order is evidenced by the metamagnetic transition and pronounced λ-type anomaly at T_N in the specific heat. Using phenomenological modeling based on a quantum transfer-matrix method, we argue that at higher temperatures linarite is a quasi-one-dimensional system with competing ferromagnetic nearest-neighbor and antiferromagnetic next-nearest-neighbor exchange interactions.