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2009
[23] “Charged impurity
scattering in bilayer graphene”
S.
Xiao, J-H. Chen, S. Adam, E. D. Williams, and M. S. Fuhrer [arXiv]
[22] “Theory of charged
impurity scattering in two dimensional graphene”
Invited review for the graphene special issue of Solid State
Communications.
S.
Adam, E. H. Hwang, E. Rossi and S. Das Sarma
Solid
State Communication 149, 1072
(2009).
[doi] [pdf] [arXiv]
[21] “Crossover from quantum to Boltzmann transport in graphene”
S. Adam, P. W. Brouwer, and S. Das Sarma
Phys.
Rev. B 79, 201404
(2009). (Rapid Communications and Editors' Suggestion) [doi] [pdf] [arXiv]
[20] “Effective medium theory for
disordered two-dimensional graphene”
E. Rossi, S. Adam, and S. Das Sarma
Phys.
Rev. B 79, 245423
(2009). [doi] [pdf] [arXiv]
[n/a] “Condensed-matter physics:
Carbon conductor corrupted”
News and Views.
Michael S. Fuhrer and Shaffique Adam
Nature 458, 38
(2009). [doi] [pdf]
[arXiv]
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
Phys. Rev. Lett. 101, 146805
(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
Phys.
Rev. Lett. 101, 046404
(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). (Rapid Communications)
[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]
Thesis
Ph.D thesis: "Magnetic
Properties of
Nanoscale Conductor”, Cornell University, 2006