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2008
[19] “Tuning the
effective fine structure constant in graphene: opposing effects of
dielectric screening on short- and long-range potential scattering”
C.
Jang, S. Adam, J.-H. Chen, E. D. Williams, S. Das Sarma and M. S. Fuhrer
Preprint (2008). [doi] [pdf] [arXiv]
[18] “Density
inhomogeneity driven percolation metal-insulator transition and
dimensional crossover in graphene nanoribbons”
S.
Adam, S. Cho, M. S. Fuhrer and S. Das Sarma
Preprint (2008). [doi] [pdf] [arXiv]
[17] “Transport
in suspended graphene”
S.
Adam and S. Das Sarma
Solid
State Communication 146,
356
(2008). [doi] [pdf]
[arXiv]
[16] “Charged-impurity
scattering in graphene”
J. H.
Chen,
C. Jang, S. Adam, M. S. Fuhrer, E. D. Williams and M. Ishigami
Nature
Physics 4, 377 (2008).
[doi]
[pdf]
[arXiv]
[15] “Boltzmann
transport and residual conductivity in bilayer graphene”
S.
Adam and S. Das Sarma
Phys.
Rev. B 77, 115436 (2008).
[doi] [pdf]
[arXiv]
[14] “Scattering
mechanisms and Boltzmann transport in graphene”
Proceedings for an oral presentation at the International Conference on
Electronic
Properties of Two-dimensional Systems (EP2DS-17) in Genoa, Italy on
July 17, 2007
S.
Adam, E. H. Hwang, and S. Das Sarma
Physica
E 40, 1022 (2008).
[doi] [pdf]
[arXiv]
2007
[13]
“Measurement
of scattering rate and minimum conductivity in graphene”
Y.-W. Tan,
Y. Zhang, K. Bolotin, Y. Zhao, S. Adam, E. H. Hwang, S. Das Sarma,
H. L. Stormer, and P. Kim
Phys.
Rev. Lett. 99, 246803 (2007). [doi] [pdf]
[arXiv]
[12] “A
self-consistent theory for graphene transport”
S. Adam, E. H. Hwang,
V. M. Galitski, and S. Das Sarma
Proc.
Nat. Acad. Sci. USA 104,
18392 (2007).
[doi] [pdf] [arXiv]
[11] “Statistics
of random voltage fluctuations and the low density residual
conductivity
of graphene”
V. M.
Galitski, S. Adam, and S. Das Sarma
Phys. Rev. B 76, 245405
(2007).
[doi] [pdf]
[arXiv]
[10] “Transport
in chemically doped graphene in the presence of adsorbed molecules”
E. H.
Hwang, S. Adam, and S. Das Sarma
Phys. Rev. B 76, 195421
(2007).
[doi] [pdf]
[arXiv]
[9] “Carrier
transport in 2D graphene layers”
E. H.
Hwang, S. Adam, and S. Das Sarma
Phys. Rev. Lett. 98,
186806
(2007).
[doi] [pdf]
[arXiv]
2006
[8] “Ferromagnetic
resonance in a current driven nanopillar”
J. N.
Kupferschmidt, S. Adam, and P. W. Brouwer
Phys. Rev. B 74, 134416
(2006).
[doi] [pdf]
[arXiv]
[7] “Mesoscopic
anisotropic magnetoconductance fluctuations in ferromagnets”
S.
Adam, M. Kindermann, S. Rahav, and P. W. Brouwer
Phys.
Rev. B
73, 212408 (2006).
[doi] [pdf]
[arXiv]
[6] “Current
induced transverse spin-wave instability in thin ferromagnets: beyond
linear
stability analysis”
S.
Adam, M. L. Polianski, and P W. Brouwer
Phys.
Rev. B 73, 024425 (2006).
[doi] [pdf]
[arXiv]
2003
[5] “Scaling
approach to electron-electron interactions in a chaotic quantum dot”
S.
Adam, P. W. Brouwer, and P. Sharma
Phys.
Rev. B 68, R241311
(2003).
[doi] [pdf]
[arXiv]
[4]
“Conductance-peak height correlations for a Coulomb-blockaded quantum
dot in a
weak magnetic field”
S.
Braig, S. Adam, and P. W. Brouwer
Phys.
Rev. B 68, 035323 (2003).
[doi] [pdf]
[arXiv]
2002
[3] “Magnetic-field
dependence of energy levels in ultrasmall metal grains”
S.
Adam, M. L. Polianski, X. Waintal, and P. W. Brouwer
Phys. Rev. B 66, 195412
(2002).
[doi] [pdf]
[arXiv]
[2] “Enhanced
mesoscopic fluctuations in the crossover between random-matrix ensembles”
S.
Adam, P. W. Brouwer, J. P. Sethna, and X. Waintal
Phys.
Rev. B 66, 165310 (2002).
[doi] [pdf]
[arXiv]
[1]
“Sensitivity of an underwater acoustic array to ultra-high energy
neutrinos”
N.G.
Lehtinen, S. Adam, G. Gratta, T. K. Berger, and M. J. Buckingham
Astroparticle
Physics 17, 279 (2002).
[doi] [pdf]
[arXiv]