A recent highlight in the study of high-Tc superconductors is the
observation of band renormalization or self-energy effects on the
quasiparticles. This is seen in the form of kinks in the quasiparticle
dispersions as measured by photoemission and interpreted as signatures
of collective bosonic modes coupling to the electrons. Here we compare
for the first time the self-energies in an optimally doped and strongly
overdoped, nonsuperconducting single-layer Bi-cuprate (Bi2Sr2CuO6).
In addition to the appearance of a strong overall weakening, we also
find that the weight of the self-energy in the overdoped system shifts
to higher energies. We present evidence that this is related to a
change in the coupling to c-axis phonons due to the rapid change
of the c-axis screening in this doping range.
:C\:\\Users\\Nick\\Documents\\Papers\\Meevasana et al. - Doping dependence of the coupling electrons to bosonic modes in the single-layer high-temperature Bi2201 superconductor.pdf:PDF
%0 Journal Article
%1 Meevasana2006
%A Meevasana, W.
%A Ingle, N. J. C.
%A Lu, D. H.
%A Shi, J. R.
%A Baumberger, F.
%A Shen, K. M.
%A Lee, W. S.
%A Cuk, T.
%A Eisaki, H.
%A Devereaux, T. P.
%A Nagaosa, N.
%A Zaanen, J.
%A Shen, Z.-X.
%D 2006
%I American Physical Society
%J Phys. Rev. Lett.
%K imported
%N 15
%P 157003
%R 10.1103/PhysRevLett.96.157003
%T Doping Dependence of the Coupling of Electrons to Bosonic Modes in
the Single-Layer High-Temperature $Bi_2Sr_2CuO_6$ Superconductor
%V 96
%X A recent highlight in the study of high-Tc superconductors is the
observation of band renormalization or self-energy effects on the
quasiparticles. This is seen in the form of kinks in the quasiparticle
dispersions as measured by photoemission and interpreted as signatures
of collective bosonic modes coupling to the electrons. Here we compare
for the first time the self-energies in an optimally doped and strongly
overdoped, nonsuperconducting single-layer Bi-cuprate (Bi2Sr2CuO6).
In addition to the appearance of a strong overall weakening, we also
find that the weight of the self-energy in the overdoped system shifts
to higher energies. We present evidence that this is related to a
change in the coupling to c-axis phonons due to the rapid change
of the c-axis screening in this doping range.
@article{Meevasana2006,
abstract = {A recent highlight in the study of high-Tc superconductors is the
observation of band renormalization or self-energy effects on the
quasiparticles. This is seen in the form of kinks in the quasiparticle
dispersions as measured by photoemission and interpreted as signatures
of collective bosonic modes coupling to the electrons. Here we compare
for the first time the self-energies in an optimally doped and strongly
overdoped, nonsuperconducting single-layer Bi-cuprate (Bi2Sr2CuO6).
In addition to the appearance of a strong overall weakening, we also
find that the weight of the self-energy in the overdoped system shifts
to higher energies. We present evidence that this is related to a
change in the coupling to c-axis phonons due to the rapid change
of the c-axis screening in this doping range.},
added-at = {2010-11-06T00:14:39.000+0100},
author = {Meevasana, W. and Ingle, N. J. C. and Lu, D. H. and Shi, J. R. and Baumberger, F. and Shen, K. M. and Lee, W. S. and Cuk, T. and Eisaki, H. and Devereaux, T. P. and Nagaosa, N. and Zaanen, J. and Shen, Z.-X.},
biburl = {https://www.bibsonomy.org/bibtex/20b9e80c702c4082776c4e029622cce2c/nplumb},
doi = {10.1103/PhysRevLett.96.157003},
file = {:C\:\\Users\\Nick\\Documents\\Papers\\Meevasana et al. - Doping dependence of the coupling electrons to bosonic modes in the single-layer high-temperature Bi2201 superconductor.pdf:PDF},
interhash = {88831bde183964903f475dbc5b915b38},
intrahash = {0b9e80c702c4082776c4e029622cce2c},
journal = {Phys. Rev. Lett.},
keywords = {imported},
month = Apr,
number = 15,
numpages = {4},
owner = {Nick},
pages = 157003,
publisher = {American Physical Society},
timestamp = {2010-11-06T00:14:42.000+0100},
title = {Doping Dependence of the Coupling of Electrons to Bosonic Modes in
the Single-Layer High-Temperature $Bi_{2}Sr_{2}CuO_{6}$ Superconductor},
volume = 96,
year = 2006
}