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Advances in Physics (3)
2011 Impact factor 37.00
D.S.L. Abergel, V. Apalkov, J. Berashevich, K. Ziegler, and T. Chakraborty,
Properties
of graphene: A theoretical perspective
∗ Adv. Phys. 59, 261 (2010) ⇒
(222 pages).
V. Apalkov and T.
Chakraborty, Quantum cascade transitions
in nanostructures
∗
Adv. Phys. 52, 455 (2003) ⇒ (67 pages).
T. Chakraborty, Electron Spin Transitions in
Quantum Hall Systems
∗
Adv. Phys. 49, 959 (2000) ⇒ (56 pages).
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Physical Review Letters (21)
2011 Impact factor 7.37
Vadim M. Apalkov and T. Chakraborty,
Gap structure of the Hofstadter system of interacting
Dirac fermions in graphene
∗ Phys. Rev. Lett.
112, 176401 (2014).
Vadim M. Apalkov and T. Chakraborty,
Comment on `Fock-Darwin states of Dirac electrons in
graphene-based artificial atoms' -- Reply
∗ Phys. Rev. Lett.
108, 169702 (2012).
Vadim M. Apalkov and T. Chakraborty,
Interacting Dirac fermions on the surface
of a Topological insulator
∗ Phys. Rev. Lett.
107, 186801 (2011).
Vadim M. Apalkov and T. Chakraborty,
Stable pfaffian state in bilayer graphene
∗ Phys. Rev. Lett.
107, 186803 (2011).
Vadim M. Apalkov and T. Chakraborty,
Controllable, driven phase transitions in the
fractional quantum Hall states in bilayer graphene
∗ Phys. Rev. Lett.
105, 036801 (2010).
D.S.L. Abergel and T. Chakraborty,
Long-range Coulomb interactions in bilayer
graphene
∗
Phys. Rev. Lett.
102, 056807 (2009).
Hong-Yi Chen, Vadim M. Apalkov and T. Chakraborty,
The Fock-Darwin states of Dirac
electrons in graphene-based artificial atoms
∗ Phys. Rev. Lett.
98, 186803 (2007).
Vadim M. Apalkov and T. Chakraborty,
The fractional quantum Hall states of Dirac
electrons in graphene
∗ Phys. Rev. Lett.
97, 126801 (2006).
X.F. Wang and T. Chakraborty,
Charge transfer via a two-strand superexchange
bridge
in DNA ∗
Phys. Rev. Lett. 97, 106602 (2006).
T. Chakraborty and P. Pietiläinen,
Optical signatures of spin-orbit interaction effects
in a Parabolic Quantum Dot
∗ Phys. Rev. Lett.
95, 136603 (2005).
M. Califano, T. Chakraborty, and P. Pietiläinen:
Tuning of the gap in a Laughlin Bychkov
Rashba incompressible liquid
∗ Phys. Rev. Lett.
94, 246801 (2005).
C. Schüller, K.-B. Broocks, P. Schröter, Ch. Heyn,
D. Heitmann, M. Bichler, W. Wegscheider,
T. Chakraborty, and
V.M. Apalkov, Optical probing of a
fractionally-charged quasihole in
an incompressible liquid
∗ Phys. Rev.
Lett. 91, 116403 (2003).
V.M. Apalkov, T. Chakraborty, P. Pietiläinen
and K. Niemelä: Half-Polarized Quantum
Hall States ∗
Phys. Rev. Lett. 86, 1311 (2001).
T. Chakraborty and P. Pietiläinen:
Temperature dependence of spin polarizations at
higher
Landau levels ∗ Phys. Rev.
Lett. 83, 5559 (1999).
T. Chakraborty, K. Niemelä, and P.
Pietiläinen: Theory of Incompressible States in a
Narrow Channel ∗
Phys. Rev. Lett. 78, 4829 (1997).
T. Chakraborty and P. Pietiläinen:
Thermodynamics and Spin Polarizations of the
Fractional Quantum Hall States ∗
Phys. Rev. Lett. 76, 4018 (1996).
P.A. Maksym and T. Chakraborty:
Quantum Dots in a Magnetic Field: Role of
Electron-Electron Interactions ∗
Phys. Rev. Lett.
65, 108 (1990).
My most
cited paper, as yet!
T. Chakraborty and P. Pietiläinen:
Fractional Quantum Hall Effect at Half-Filled
Landau Level
in a Multiple Layer Electron System ∗
Phys. Rev. Lett. 59, 2784 (1987).
T. Chakraborty, P. Pietiläinen, and
F. C. Zhang: Elementary Excitations in the Fractional
Quantum Hall Effect and the Spin-Reversed Quasiparticles
∗ Phys. Rev. Lett.
57, 130 (1986).
T. Chakraborty and P. Pietiläinen:
Comment on "Variational Approach to the Ground State
of the Electron-Hole
Liquid (Reply) ∗ Phys. Rev. Lett.
50, 2037 (1983).
T. Chakraborty and P. Pietiläinen:
Variational Approach to the Ground State of the
Electron-Hole Liquid
∗ Phys. Rev. Lett.
49, 1034 (1982).
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J. Phys. Chem. C (1)
2011 Impact factor 4.805
J. Berashevich and T. Chakraborty: On the nature of interlayer
interactions in a system of two graphene fragments
⇒ J. Phys. Chem. C
115, 24666 (2011).
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|
Applied Physics Letters (7)
2011 Impact factor 3.84
D.S.L. Abergel, and T. Chakraborty: Generation of valley-polarized current
in bilayer graphene ⇒
Appl. Phys. Lett.
95, 062107 (2009).
A. Wirthmann, X. Hui, N. Mecking, Y.S. Gui, T. Chakraborty,
C.M. Hu, M. Reinwald,
C. Schüller, and W. Wegshseider,
and P. Pietiläinen: Broadband electrical detection
of spin excitations in GaMnAs using a photovoltage
⇒ Appl. Phys. Lett.
92, 232106 (2008).
M. Califano, T. Chakraborty,
and P. Pietiläinen: Spin precession in a fractional quantum Hall
state with spin-orbit coupling ⇒
Appl. Phys. Lett.
87, 112508 (2005).
V.M. Apalkov and T. Chakraborty, Influence of
dimensionality on the emission spectra of
nanostructures ⇒
Appl. Phys. Lett. 83, 3671 (2003).
V.M. Apalkov and T. Chakraborty:
Influence of Disorder and a Parallel Magnetic Field on
a Quantum Cascade Laser ⇒
Appl. Phys. Lett. 78, 697 (2001).
V.M. Apalkov and T. Chakraborty:
Magnetic Field induced Luminescence Spectra in a
Quantum Cascade Laser ⇒
Appl. Phys. Lett.78, 1973 (2001).
V.M. Apalkov and T. Chakraborty:
Luminescence Spectra of a Quantum-Dot Cascade
Laser ⇒ Appl. Phys. Lett.
78, 1820 (2001).
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Physical Review B: Rapid Communications (14)
2011 Impact factor 3.69
D.S.L. Abergel and T. Chakraborty:
Electron correlations in bilayer graphene
⇒ Phys. Rev. B 82,
161409(R) (2010).
X.F. Wang and T. Chakraborty:
Coulomb screening and collective excitations in
biased bilayer graphene ⇒
Phys. Rev. B
81, 081402 (R) (2010).
D.S.L. Abergel, P. Pietäinen and T. Chakraborty:
Electronic compressibility of graphene:
The case of vanishing electron correlatons and
the role of chirality
⇒ Phys. Rev. B
80, 081408 (R) (2009).
X.F. Wang and T. Chakraborty:
Coulomb screening and collective excitations in a
graphene bilayer ⇒
Phys. Rev. B
75, 041404 (R) (2007).
V.M. Apalkov, A. Bagga and T. Chakraborty:
Spin-orbit interaction in a quantum
cascade transition ⇒
Phys. Rev. B
73, 161304 (R) (2006).
Vadim Apalkov and T. Chakraborty:
Transverse tunneling current
through gunanine
traps in DNA
⇒ Phys. Rev. B
72, 161102 (R) (2005).
T. Chakraborty and P. Pietiläinen:
Specific Heat of the Quantum
Hall Systems
⇒ Phys. Rev. B
55, 1954 (R) (1997).
P. Maksym and T. Chakraborty: The Effect of
Electron-Electron Interactions on
the Magnetization of Quantum Dots ⇒
Phys. Rev. B 45, 1947 (R) (1992).
T. Chakraborty, V. Halonen and P. Pietiläinen:
Magneto-Optical Transitions in a Pair
of Coulomb Coupled Quantum Dots ⇒
Phys. Rev. B 43, 14 289 (R) (1991).
T. Chakraborty:
Variational Calculations for the Sutherland Model
⇒ Phys. Rev. B 39,
869 (R) (1989).
T. Chakraborty and P. Pietiläinen:
Fractional Quantum Hall Effect at the
Even-Denominator
Filling Fractions ⇒ Phys. Rev. B
38, 10 097 (R) (1988).
T. Chakraborty,
A. Kallio and M. Puoskari:
The Structure of Liquid He-4 at Low
Temperatures: Random Phase Approximation
⇒
Phys. Rev. B 33, 635 (R) (1986).
F.C. Zhang and T. Chakraborty:
Ground State of Two-Dimensional Electrons and
the Reversed Spins
in the Fractional Quantum Hall Effect ⇒
Phys. Rev. B 30, 7320 (R) (1984).
T. Chakraborty
and F.C. Zhang: The Role of Reversed Spins in the Correlated
Ground State for the
Fractional Quantum Hall Effect ⇒
Phys. Rev. B 29, 7032 (R) (1984).
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Nanotechnology (5)
2011 Impact factor 3.98
Xue Feng Wang, T. Chakraborty and J. Berashevich:
Quantum transport anomalies
in DNA containing mispairs ⇒
Nanotechnology
, (2010).
A. Manaselyan and T. Chakraborty:
Magneto-optical spin manipulations in a
quantum dot with a magnetic impurity ⇒
Nanotechnology
21, 355401 (2010).
J. Berashevich and T. Chakraborty:
Sustained ferromagnetism induced by
H-vacancies in graphane ⇒
Nanotechnology
21, 355201 (2010).
N. Edirisinghe, V. Apalkov, J. Berashevich, and T. Chakraborty:
Electrical current through
DNA containing mismatched base pairs ⇒
Nanotechnology
21, 245101 (2010).
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Chem. Phys./ Phys. Chem. (7)
2009 Impact factor 3.09 / 3.471
V. Apalkov, J. Berashevich and T. Chakraborty:
Unique magnetic signatures of mismatched
base pairs in DNA ⇒
J. Chem. Phys. 132, 085102 (2010).
J.A. Berashevich and T. Chakraborty:
Thermodynamics of GA mispairs in DNA: Continuum
electrostatic model ⇒
J. Chem. Phys. 130, 015101 (2009).
J.A. Berashevich and T. Chakraborty:
How the surrounding water changes the electronic
and magnetic properties of DNA ⇒
J. Phys. Chem. B 112, 14083 (2008).
J.A. Berashevich and T. Chakraborty:
Water induced weakly bound electrons in DNA
⇒ J. Chem. Phys.
128, 235101 (2008).
J.A. Berashevich and T. Chakraborty:
The influence of solvent on the energetics of hole
transfer in DNA
⇒ J. Phys. Chem. B
111, 13465 (2007).
J.A. Berashevich and T. Chakraborty:
Eenergetics of the hole transfer in DNA duplex
oligomers ⇒
Chem. Phys. Lett. 446, 159 (2007).
J.A. Berashevich and T. Chakraborty:
Energy contribution of the solvent to the charge
migration in DNA ⇒
J. Chem. Phys. 126, 035104 (2007).
|
Physical Review B (48)
S. Avetisyan, P. Pietiläinen, and T. Chakraborty,
Strong enhancement of Rashba
spin-orbit coupling with increasing anisotropy in the Fock-Darwin
states of a quantum dot
⇒ Phys. Rev. B 85, 153301 (2012).
V. Apalkov and T. Chakraborty,
Optical transitions at commensurate angles in a
misoriented bilayer graphene in an external magnetic field
⇒ Phys. Rev. B 84, 033408 (2011).
Julia Berashevich and T. Chakraborty,
Interlayer repulsion and decoupling effects in
stacked turbostratic graphene flakes
⇒ Phys. Rev. B 84, 033403 (2011).
Julia Berashevich and T. Chakraborty,
Zipping and unzipping of nanoscale carbon
structures
⇒ Phys. Rev. B 83, 195442 (2011).
Julia Berashevich and T. Chakraborty,
Influence of adsorbates on the electronic and
magnetic properties of graphane with H-vacancy defects
in nanoscale graphene
⇒ Phys. Rev. B 82, 134415 (2010).
Julia Berashevich and T. Chakraborty,
Doping graphene by adsorption of polar
molecules at oxidized zigzag edges
⇒ Phys. Rev. B 81, 205431 (2010).
Julia Berashevich and T. Chakraborty,
Impurity induced spin gap asymmetry
in nanoscale graphene
⇒ Phys. Rev. B 80, 115430 (2009).
Julia Berashevich and T. Chakraborty,
Tunable bandgap and magnetic ordering by
adsorption of molecules on graphene
⇒ Phys. Rev. B 80, 033404 (2009).
D. Abergel, V. Apalkov and T. Chakraborty,
Interplay between valley polarization and
electron-electron
interactions in a graphene ring
⇒ Phys. Rev. B 78, 193405 (2008).
V. Apalkov and T. Chakraborty,
Influence of correlated electrons on the paramagnetism
of DNA ⇒
Phys. Rev. B 78, 104424 (2008).
Hong-Yi Chen, P. Pietiläinen and
T. Chakraborty, Some unique magnetic properties
of nanoscale quantum rings
subjected to Rashba spin-orbit interactions
⇒
Phys. Rev. B 78, 073407 (2008).
Hong-Yi Chen, V. Apalkov and T. Chakraborty,
Spin-orbit Coupling and Tunneling
Current in a Parabolic Quantum Dot
⇒ Phys. Rev. B 75, 193303 (2007).
X.F.Wang and T. Chakraborty,
Collective excitations of Dirac electrons in a graphene
layer with spin-orbit interaction
⇒ Phys. Rev. B 75, 033408 (2007).
X.F.Wang and T. Chakraborty,
Spin injection into a short DNA chain
⇒
Phys. Rev. B 74, 193103 (2006).
A. Bagga, P. Pietiläinen and
T. Chakraborty, Spin hot spots in
vertically-coupled
few-electron isolated quantum dots
⇒ Phys. Rev. B 74, 033313 (2006).
P. Pietiläinen and T. Chakraborty,
Energy levels and magneto-optical transitions
in parabolic quantum dots with
spin-orbit coupling⇒ Phys. Rev. B 73,
155315 (2006).
Marco Califano, T. Chakraborty,
P. Pietiläinen, and C.-M. Hu, Breaking of Larmor's
theorem in quantum Hall states with spin-orbit coupling
⇒ Phys. Rev. B 73,
113315 (2006).
V.M. Apalkov and T. Chakraborty:
Electronic properties of guanine traps in DNA
⇒
Phys. Rev. B 73, 113103 (2006).
V.M. Apalkov, T. Chakraborty, and C. Schüller:
Spin transitions in an incompressible
liquid Coulomb coupled
to a quantum dot ⇒ Phys. Rev. B 73,
073310 (2006).
T. Chakraborty and P. Pietiläinen,
Electron Correlations in a Quantum Dot
with
Bychkov-Rashba Coupling
⇒ Phys. Rev. B 71, 113305 (2005).
V.M. Apalkov and T. Chakraborty:
Electron Dynamics in a DNA Molecule
⇒
Phys. Rev. B 71, 033102 (2005).
D. Smirnov, O. Drachenko, J. Leotin, H. Page,
C. Becker, C. Sirtori, V. Apalkov
and T. Chakraborty:
Intersubband magnetophonon resonance in quantum
cascade structure ⇒
Phys. Rev. B 66, 123517 (2002).
S. Conti and T. Chakraborty: Dynamical
Correlations in a Half-Filled Landau
Level ⇒
Phys. Rev. B 59, 2867 (1999).
T. Chakraborty, K. Niemelä, and P.
Pietiläinen: Impurity Effects and Spin
Polarizations in a
Narrow Quantum Hall Systms
⇒ Phys. Rev. B 58,
9890 (1998).
T. Chakraborty: Fermi-Liquid Description
of the Half-Filled Landau Level
⇒
Phys. Rev. B 57, 8812 (1998).
T. Chakraborty and P. Pietiläinen:
Electron Correlations in Antidot Arrays
in a Magnetic Field
⇒ Phys. Rev. B
53, 4664 (1996).
V. Halonen, P. Hyvönen, P. Pietiläinen and T. Chakraborty:
Effects of scattering
centers on the energy spectrum of a
quantum dot ⇒ Phys.
Rev. B 53, 6971 (1996).
M. Alatalo, M. A. Salmi, P. Pietiläinen, and
T. Chakraborty:
Correlations in Coupled
Electron and
Hole Layers of Finite Thickness ⇒
Phys. Rev. B 52,
7845 (1995).
T. Chakraborty and P. Pietiläinen:
Persistent Current in a Quantum Ring:
Effects
of Impurities and i
Interactions ⇒
Phys. Rev. B 52, 1932 (1995).
T. Chakraborty and P. Pietiläinen:
Electron-Electron Interaction and the
Persistent
Current in a Quantum i
Ring ⇒
Phys. Rev. B 50, 8460 (1994).
M. Alatalo, P. Pietiläinen, T. Chakraborty,
and M. A. Salmi: Variational Calculations for
Semiconductor
Superlattices and Multilayer Systems
⇒ Phys. Rev. B 49,
8277 (1994).
A. V. Madhav and T. Chakraborty:
Electronic Properties of Anisotropic Quantum Dots
in a Magnetic
Field ⇒ Phys. Rev. B 49,
8163 (1994).
M. Alatalo, P. Pietiläinen and T. Chakraborty:
Collective Excitations, Pressure, and
Compressibility
in Multilayer Systems ⇒ Phys. Rev. B
48, 1665 (1993).
V. Halonen, T. Chakraborty, and P. Pietiläinen:
Excitons in a Parabolic Dot in
Magnetic
Fields ⇒ Phys. Rev. B
45, 5980 (1992).
T. Chakraborty and P. Pietiläinen:
Recombination Radiation from a Two-Dimensional
Electron System
in a Strong Magnetic Field: Spin Dependence
⇒
Phys. Rev. B 44, 13 078 (1991).
T. Chakraborty and P. Pietiläinen:
Spin-Reversed Excitations in the Fractional
Quantum Hall Effect
⇒ Phys. Rev. B 41,
10 862 (1990).
V. Halonen, P. Pietiläinen, and T.
Chakraborty: Subband-Landau Level Coupling
in the Fractional Quantum Hall Effect in Tilted Magnetic Fields
⇒ Phys. Rev. B
41, 10 202 (1990).
T. Chakraborty and Wolfgang von der
Linden: On the Nature of the Long-Range
Order in the Quantum Hall Effect Regime ⇒
Phys. Rev. B 41, 7872 (1990).
T. Chakraborty: Collective Excitations
in the Fractional Quantum Hall Effect in
an Alternating
Density Superlattice ⇒
Phys. Rev. B 41, 5396 (1990).
T. Chakraborty and P. Pietiläinen:
Fractional Quantum Hall Effect in Tilted
Magnetic Fields ⇒ Phys. Rev. B
39, 7971 (1989).
F.C. Zhang and T. Chakraborty: Spin-1
Quasiparticles and Spin Polarization
of the Daughter State in
Fractional Quantum Hall Effect
⇒
Phys. Rev. B 34, 7076 (1986).
T. Chakraborty: Spin-Reversed
Quasiparticles in the Fractional Quantum Hall
Effect
-- Many-Body Approach ⇒
Phys. Rev. B 34, 2926 (1986).
T. Chakraborty: Elementary Excitations
in the Fractional Quantum Hall Effect
⇒
Phys. Rev. B 31, 4026 (1985).
T. Chakraborty and C.E. Campbell:
Ground State Correlations in the Layered
Electron-Hole Liquid ⇒
Phys. Rev. B 29, 6640 (1984).
T. Chakraborty:
Theory of Two Charged Component Fermi Fluids
⇒
Phys. Rev. B 29, 3975 (1984).
T. Chakraborty, A. Kallio, L.J. Lantto, and P. Pietiläinen:
Structure of Liquid
Metallic Hydrogen
as a Two-Component Fermi Liquid at T=0 K
⇒
Phys. Rev. B 27, 3061 (1983).
T. Chakraborty: Structure of a Binary
Boson Mixtures at T = 0 K
⇒
Phys. Rev. B 26, 6131 (1982).
T. Chakraborty: Variational Theory
of Binary Boson Mixtures at T = 0 K
⇒
Phys. Rev. B 25, 3177 (1982).
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EPL - Europhys. Lett. (9)
2010 Impact factor 2.17
- V. Apalkov and T. Chakraborty:
Electronic Raman signatures of valley polarization, shell filling in
graphene quantum dots
⇒ Europhys. Lett. 95, 17008
(2011).
- A. Manaselyan and T. Chakraborty:
Tunability of Raman spectral signatures by Rashba spin-orbit interaction
in few-electron quantum dots
⇒ Europhys. Lett. 94, 57005
(2011).
- J. Berashevich and T. Chakraborty:
Magnetic properties of hydrogenated bilayer graphene flakes
⇒ Europhys. Lett. 93, 47007
(2011).
- A. Manaselyan and T. Chakraborty:
Enhansed Rashba effect for hole states in a quantum dot
graphene ⇒ Europhys. Lett. 88, 17003 (2009).
- T. Chakraborty and P. Pietiläinen:
Spin configurations and activation gaps of the quantum Hall states in
graphene ⇒ Europhys. Lett. 80, 37007 (2007).
- T. Chakraborty, P. Pietiläinen, and
R. Shankar: Spin Polarizations at and about the Lowest Filled
Landau Level ⇒ Europhys.
Lett. 38, 141 (1997).
- K. Niemelä, P. Pietiläinen, P. Hyvönen,
and T. Chakraborty: Fractional Oscillations of
Electronic States in a Quantum Ring ⇒
Europhys. Lett. 36, 533 (1996)
- V. Halonen, P. Pietiläinen and T.
Chakraborty: Optical Absorption Spectra of Quantum Dots
and Rings with a Repulsive Scattering Center ⇒
Europhys. Lett.
33, 377 (1996).
- P. Pietiläinen and T. Chakraborty:
Collective Excitations in the Fractionally Quantized Hall
Effect and the Magnetoplasmon Mode ⇒
Europhys. Lett. 5, 157 (1988)
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Physica E (9)
2010 Impact factor 1.532
- Hong-Yi Chen, J.Z. Garcia, T. Chakraborty,
and P. Pietiläinen: Tunable ground-state degeneracies in double quantum
dots ⇒ Physica E 40, 2834 (2008).
- J.Z. Garcia, P. Pietiläinen, Hong-Yi Chen, and
T. Chakraborty: Electronic correlations in double quantum dots
⇒ Physica E 40, 2839 (2008).
- N. Ulbrich, D. Schuh, J. Bauer, G. Abstreiter,
V. Apalkov, and T. Chakraborty:
Temperature induced broadening of the emission lines
from a quantum-dot nanostructure
⇒ Physica E 24, 272 (2004).
- C. Schüller, K.-B. Broocks, P. Schröter,
Ch. Heyn, D. Heitmann, M. Bichler, W. Wegscheider,
T. Chakraborty, and V.M. Apalkov,
How to probe a
fractionally-charged quasihole? ⇒ Physica E 22,
131 (2004).
- T. Chakraborty and V.M. Apalkov: Magnetic
field effects on intersubband transitions in a quantum
nanostructure ⇒ Physica E 16, 253 (2003).
- V.M. Apalkov and T. Chakraborty:
Optical properties of quantum-dot cascade structure
⇒ Physica E 14, 294 (2002).
- V.M. Apalkov and T. Chakraborty:
Interaction of a quantum dot with an incompressible
two-dimensional electron gas
⇒ Physica E 14, 289 (2002).
- Tapash Chakraborty (Ed.): Novel Physics in
Low-Dimensional Electron Systems, Proc. of the
Workshop in Dresden, 1997, Physica E (North-Holland) 1,
(1998).
- T. Chakraborty, K. Niemelä, and P. Pietiläinen:
Correlated Electrons in Narrow Channels
⇒ Physica E 1, 80 (1998).
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Other journals (25)
- C. Schüller, K.-B. Broocks, P. Schröter,
Ch. Heyn, D. Heitmann, M. Bichler, W. Wegscheider,
V.M. Apalkov and T. Chakraborty,
Charged Excitons
in the Quantum Hall Regime ⇒ Acta Physica Polonica A
106, 341 (2004).
- D. Smirnov, O. Drachenko, J. Leotin, H. Page,
C. Becker, C. Sirtori, V. Apalkov and T. Chakraborty:
Intersubband magnetophonon resonance in quantum cascade
structures ⇒ Int. J. Mod. Phys. B 16, 2952 (2002).
- T. Chakraborty, K. Niemelä, and P. Pietiläinen:
Spin polarization of quantum Hall
states ⇒ in 150 years of quantum many-body theory,
Eds. R.F. Bishop, K.A. Gernoth, and N.R. Walet (World
Scientific, 2001), p. 295.
- V.M. Apalkov, T. Chakraborty, P. Pietiläinen and
K. Niemelä: Comment on "Composite Fermion
Hofstadter Problem: Partially Polarized Density Wave States in the
..." ⇒ cond-mat/0007043
- K. Niemelä, P. Pietiläinen and T. Chakraborty:
Spin transitions in the fractional
quantum Hall systems ⇒ Physica B 284-288,
1716 (2000).
- P. Pietiläinen, V. Halonen and T. Chakraborty:
Electron Correlations in Quantum Ring
and Dot Systems ⇒ Physica B 212, 256 (1995).
- Tapash Chakraborty (Ed.): Novel Physics
in Low-Dimensional Electron Systems, Proc. of the
Workshop in Madras, 1995, Physica B (North-Holland) 212,
201 (1995).
- T. Chakraborty: Quantum Dots and other
Mesoscopic Systems ⇒ Current Science 67, 858 (1994).
- P. Pietiläinen and T. Chakraborty:
Interacting Electron States and the Persistent Current
in a Quantum Ring ⇒ Sol. State Commun. 87,
809 (1993).
- T. Chakraborty: Physics of the
Fractional Quantum Hall Dots ⇒ Proc. of the DAE Symposium
in Solid State Physics, Bombay, India, 1993.
- T. Chakraborty and P. Pietiläinen:
Electronic Properties of Quantum Dots and Quantum Rings
in Magnetic Fields ⇒ Proc. of Taniguchi Symposium
on Physics of Mesoscopic Systems,
Shima, Japan, November, 1991 ⇒ eds. H. Fukuyama and
T. Ando; Springer-Verlag, Berlin, Heidelberg, New York, 1992.
- T. Chakraborty and V. Halonen: Electrons
and Excitons in a Quantum Dot in Magnetic Fields ⇒ Nanostructures
and Mesoscopic Systems, eds, W.P. Kirk and
M.A. Reed, Academic Press, New York, 1992.
- T. Chakraborty and P. Pietiläinen:
Tilted-Field Effect, Optical Transitions and Spin Configurations
of the Fractional Quantum Hall States ⇒ High Magnetic
Fields in Semiconductor Physics III, Edited by G. Landwehr
(Springer-Verlag, 1991).
- T. Chakraborty: Spin reversed Ground
State and Energy Gap in the Fractional Quantum Hall Effect
- Proc. Eighth Int. Conf. on Electronic Properties of
Two-Dimensional Systems, Grenoble, France, 1989,
⇒ Surf. Sci. 229, 16 (1990).
- T. Chakraborty and P. Pietiläinen:
Excitations in the Fractional Quantum Hall Effect at
ν=½ : Layered Electron Systems ⇒ Recent
Progress in Many-Body Theories, vol. 1, eds. Kallio,
Pajanne and Bishop, Plenum, New York, 1988.
- T. Chakraborty and C. E. Campbell:
Correlations in the Layered Electron-Hole Liquid
⇒
in
Recent Progress in Many-Body Theories, Lecture Notes in Physics,
vol. 98, Eds. Kümmel and Ristig (Springer-Verlag Heidelberg, 1984).
- T. Chakraborty and C. E. Campbell:
Electron-Hole Correlations in Si under Uniaxial Stress ⇒
Solid State Commun. 45, 195 (1983).
- T. Chakraborty: Some Ground State
Properties of a Binary Boson Mixture
⇒
J. Low Temp. Phys. 48, 151 (1982).
- T. Chakraborty and M. L. Ristig:
Spin-Orbit Correlations in Nuclear Matter
⇒
Lett. Nuovo Cimento 27,
65 (1980).
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Physical Review B (Rapid Commun.)
