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24 results on '"Chatterjee, Kamalesh"'

1. Suppression of Superfluid Density and the Pseudogap State in the Cuprates by Impurities

Author

Erdenemunkh, Unurbat, Koopman, Brian, Fu, Ling, Chatterjee, Kamalesh, Wise, W. D., Gu, G. D., Hudson, E. W., and Boyer, Michael C.

Subjects
Condensed Matter - Superconductivity
Abstract

We use scanning tunneling microscopy (STM) to study magnetic Fe impurities intentionally doped into the high-temperature superconductor Bi$_{2}$Sr$_{2}$Ca$_{2}$CuO$_{8+\delta}$. Our spectroscopic measurements reveal that Fe impurities introduce low-lying resonances in the density of states at \Omega$_{1}$ $\approx$ 4meV and \Omega$_{2}$ $\approx$ 15 meV allowing us to determine that, despite having a large magnetic moment, potential scattering of quasiparticles by Fe impurities dominates magnetic scattering. In addition, using high-resolution spatial characterizations of the local density of states near and away from Fe impurities, we detail the spatial extent of impurity affected regions as well as provide a local view of impurity-induced effects on the superconducting and pseudogap states. Our studies of Fe impurities, when combined with a reinterpretation of earlier STM work in the context of a two-gap scenario, allow us to present a unified view of the atomic-scale effects of elemental impurities on the pseudogap and superconducting states in hole-doped cuprates; this may help resolve a previously assumed dichotomy between the effects of magnetic and non-magnetic impurities in these materials.

Published
2016
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2. Fermi Surface and Pseudogap Evolution in a Cuprate Superconductor

Author

He, Yang, Yin, Yi, Zech, M., Soumyanarayanan, Anjan, Yee, Michael M., Williams, Tess, Boyer, M. C., Chatterjee, Kamalesh, Wise, W. D., Zeljkovic, I., Kondo, Takeshi, Takeuchi, T., Ikuta, H., Mistark, Peter, Markiewicz, Robert S., Bansil, Arun, Sachdev, Subir, Hudson, E. W., and Hoffman, Jennifer. E.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

The unclear relationship between cuprate superconductivity and the pseudogap state remains an impediment to understanding the high transition temperature (Tc) superconducting mechanism. Here we employ magnetic-field-dependent scanning tunneling microscopy to provide phase-sensitive proof that d-wave superconductivity coexists with the pseudogap on the antinodal Fermi surface of an overdoped cuprate. Furthermore, by tracking the hole doping (p) dependence of the quasiparticle interference pattern within a single Bi-based cuprate family, we observe a Fermi surface reconstruction slightly below optimal doping, indicating a zero-field quantum phase transition in notable proximity to the maximum superconducting Tc. Surprisingly, this major reorganization of the system's underlying electronic structure has no effect on the smoothly evolving pseudogap., Comment: For higher-resolution figures, please see the published version

Published
2013
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3. STM imaging of symmetry-breaking structural distortion in the Bi-based cuprate superconductors

Author

Zeljkovic, Ilija, Main, Elizabeth J., Williams, Tess L., Boyer, M. C., Chatterjee, Kamalesh, Wise, W. D., Yin, Yi, Zech, Martin, Pivonka, Adam, Kondo, Takeshi, Takeuchi, T., Ikuta, Hiroshi, Wen, Jinsheng, Xu, Zhijun, Gu, G. D., Hudson, E. W., and Hoffman, Jennifer E.

Subjects
Condensed Matter - Superconductivity
Abstract

A complicating factor in unraveling the theory of high-temperature (high-Tc) superconductivity is the presence of a "pseudogap" in the density of states, whose origin has been debated since its discovery [1]. Some believe the pseudogap is a broken symmetry state distinct from superconductivity [2-4], while others believe it arises from short-range correlations without symmetry breaking [5,6]. A number of broken symmetries have been imaged and identified with the pseudogap state [7,8], but it remains crucial to disentangle any electronic symmetry breaking from pre-existing structural symmetry of the crystal. We use scanning tunneling microscopy (STM) to observe an orthorhombic structural distortion across the cuprate superconducting Bi2Sr2Can-1CunO2n+4+x (BSCCO) family tree, which breaks two-dimensional inversion symmetry in the surface BiO layer. Although this inversion symmetry breaking structure can impact electronic measurements, we show from its insensitivity to temperature, magnetic field, and doping, that it cannot be the long-sought pseudogap state. To detect this picometer-scale variation in lattice structure, we have implemented a new algorithm which will serve as a powerful tool in the search for broken symmetry electronic states in cuprates, as well as in other materials., Comment: 4 figures

Published
2011
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4. Imaging nanoscale Fermi surface variations in an inhomogeneous superconductor

Author

Wise, W. D., Chatterjee, Kamalesh, Boyer, M. C., Kondo, Takeshi, Takeuchi, T., Ikuta, H., Xu, Zhijun, Wen, Jinsheng, Gu, G. D., Wang, Yayu, and Hudson, E. W.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

Particle-wave duality suggests we think of electrons as waves stretched across a sample, with wavevector k proportional to their momentum. Their arrangement in "k-space," and in particular the shape of the Fermi surface, where the highest energy electrons of the system reside, determine many material properties. Here we use a novel extension of Fourier transform scanning tunneling microscopy to probe the Fermi surface of the strongly inhomogeneous Bi-based cuprate superconductors. Surprisingly, we find that rather than being globally defined, the Fermi surface changes on nanometer length scales. Just as shifting tide lines expose variations of water height, changing Fermi surfaces indicate strong local doping variations. This discovery, unprecedented in any material, paves the way for an understanding of other inhomogeneous characteristics of the cuprates, like the pseudogap magnitude, and highlights a new approach to the study of nanoscale inhomogeneity in general.

Published
2008
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5. Scanning tunneling microscopy of the 32 K superconductor (Sr1-xKx)Fe2As2

Author

Boyer, M. C., Chatterjee, Kamalesh, Wise, W. D., Chen, G. F., Luo, J. L., Wang, N. L., and Hudson, E. W.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

The discovery of high temperature superconductivity in La[O1-xFx]FeAs at the beginning of this year [1] has generated much excitement and has led to the rapid discovery of similar compounds with as high as 55 K transition temperatures [2]. The high superconducting transition temperatures are seemingly incompatible with the electron-phonon driven pairing of conventional superconductors, resulting in wide speculation as to the mechanism and nature of the superconductivity in these materials. Here we report results of the first scanning tunneling microscopy study of the 32 K superconductor (Sr1-xKx)Fe2As2. We find two distinct topographic regions on the sample, one with no apparent atomic corrugation, and another marked by a stripe-like modulation at double the atomic periodicity. In the latter the stripes appear to modulate the local density of states, occasionally revealing a Delta = 10 mV gap with a shape consistent with unconventional (non-s wave) superconductivity., Comment: 5 pages, 4 figures Minor changes: fixed unit cell size, added references

Published
2008

6. Charge density wave origin of cuprate checkerboard visualized by scanning tunneling microscopy

Author

Wise, W. D., Boyer, M. C., Chatterjee, Kamalesh, Kondo, Takeshi, Takeuchi, T., Ikuta, H., Wang, Yayu, and Hudson, E. W.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

One of the main challenges in understanding high TC superconductivity is to disentangle the rich variety of states of matter that may coexist, cooperate, or compete with d-wave superconductivity. At center stage is the pseudogap phase, which occupies a large portion of the cuprate phase diagram surrounding the superconducting dome [1]. Using scanning tunneling microscopy, we find that a static, non-dispersive, "checkerboard"-like electronic modulation exists in a broad regime of the cuprate phase diagram and exhibits strong doping dependence. The continuous increase of checkerboard periodicity with hole density strongly suggests that the checkerboard originates from charge density wave formation in the anti-nodal region of the cuprate Fermi surface. These results reveal a coherent picture for static electronic orderings in the cuprates and shed important new light on the nature of the pseudogap phase., Comment: 5 pages, 4 figures

Published
2008
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7. Imaging the Two Gaps of the High-TC Superconductor Pb-Bi2Sr2CuO6+x

Author

Boyer, M. C., Wise, W. D., Chatterjee, Kamalesh, Yi, Ming, Kondo, Takeshi, Takeuchi, T., Ikuta, H., and Hudson, E. W.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

The nature of the pseudogap state, observed above the superconducting transition temperature TC in many high temperature superconductors, is the center of much debate. Recently, this discussion has focused on the number of energy gaps in these materials. Some experiments indicate a single energy gap, implying that the pseudogap is a precursor state. Others indicate two, suggesting that it is a competing or coexisting phase. Here we report on temperature dependent scanning tunneling spectroscopy of Pb-Bi2Sr2CuO6+x. We have found a new, narrow, homogeneous gap that vanishes near TC, superimposed on the typically observed, inhomogeneous, broad gap, which is only weakly temperature dependent. These results not only support the two gap picture, but also explain previously troubling differences between scanning tunneling microscopy and other experimental measurements., Comment: 6 pages

Published
2007
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8. Fermi Surface and Pseudogap Evolution in a Cuprate Superconductor

Author

He, Yang, Yin, Yi, Zech, M., Soumyanarayanan, Anjan, Yee, Michael M., Williams, Tess, Boyer, M. C., Chatterjee, Kamalesh, Wise, W. D., Zeljkovic, I., Kondo, Takeshi, Takeuchi, T., Ikuta, H., Mistark, Peter, Markiewicz, Robert S., Bansil, Arun, Sachdev, Subir, Hudson, E. W., and Hoffman, J. E.

Published
2014

11. Charge-density-wave origin of cuprate checkerboard visualized by scanning tunnelling microscopy

Author

Massachusetts Institute of Technology. Department of Physics, Hudson, Eric, Wise, W. D., Boyer, Michael C., Chatterjee, Kamalesh, Kondo, Takeshi, Wang, Yayu, Takeuchi, T., Ikuta, H., Massachusetts Institute of Technology. Department of Physics, Hudson, Eric, Wise, W. D., Boyer, Michael C., Chatterjee, Kamalesh, Kondo, Takeshi, Wang, Yayu, Takeuchi, T., and Ikuta, H.

Abstract

One of the main challenges in understanding high-Tc superconductivity is to disentangle the rich variety of states of matter that may coexist, cooperate or compete with d-wave superconductivity. At centre stage is the pseudogap phase, which occupies a large portion of the cuprate phase diagram surrounding the superconducting dome1. Using scanning tunnelling microscopy, we find that a static, non-dispersive, 'checkerboard'-like electronic modulation exists in a broad regime of the cuprate phase diagram and exhibits strong doping dependence. The continuous increase of checkerboard periodicity with hole density strongly suggests that the checkerboard originates from charge-density-wave formation in the antinodal region of the cuprate Fermi surface. These results reveal a coherent picture for static electronic orderings in the cuprates and shed important new light on the nature of the pseudogap phase., Research Corporation (Cottrell Scholarship), National Science Foundation (U.S.). Materials Research Science and Engineering Centers, National Science Foundation (U.S.) (CAREER Award)

Published
2011

12. Imaging nanoscale Fermi-surface variations in an inhomogeneous superconductor

Author

Massachusetts Institute of Technology. Department of Physics, Hudson, Eric, Wise, W. D., Chatterjee, Kamalesh, Boyer, Michael C., Kondo, Takeshi, Takeuchi, T., Ikuta, H., Xu, Zhijun, Wen, Jinsheng, Gu, G. D., Massachusetts Institute of Technology. Department of Physics, Hudson, Eric, Wise, W. D., Chatterjee, Kamalesh, Boyer, Michael C., Kondo, Takeshi, Takeuchi, T., Ikuta, H., Xu, Zhijun, Wen, Jinsheng, and Gu, G. D.

Abstract

Particle–wave duality suggests we think of electrons as waves stretched across a sample, with wavevector k proportional to their momentum. Their arrangement in 'k-space', and in particular the shape of the Fermi surface, where the highest-energy electrons of the system reside, determine many material properties. Here we use a novel extension of Fourier-transform scanning tunnelling microscopy to probe the Fermi surface of the strongly inhomogeneous Bi-based cuprate superconductors. Surprisingly, we find that, rather than being globally defined, the Fermi surface changes on nanometre length scales. Just as shifting tide lines expose variations of water height, changing Fermi surfaces indicate strong local doping variations. This discovery, unprecedented in any material, paves the way for an understanding of other inhomogeneous characteristics of the cuprates, such as the pseudogap magnitude, and highlights a new approach to the study of nanoscale inhomogeneity in general., Department of Energy, National Science Foundation CAREER program, National Science Foundation MRSEC Program, Research Corporation Cottrell Scholarship

Published
2010

13. An auxiliary capacitor based ultra-fast drive circuit for shear piezoelectric motors

Author

Massachusetts Institute of Technology. Department of Physics, Hudson, Eric, Chatterjee, Kamalesh, Boyer, Michael C., Wise, W. D., Massachusetts Institute of Technology. Department of Physics, Hudson, Eric, Chatterjee, Kamalesh, Boyer, Michael C., and Wise, W. D.

Abstract

Shear piezoelectric motors frequently require large voltage changes on very short time scales. Since piezos behave electrically as capacitors, this requires a drive circuit capable of quickly sourcing or sinking a large amount of current at high voltages. Here we describe a novel circuit design using a high voltage amplifier, transistor switching stage, and auxiliary capacitor. This circuit can drive piezoelectric motors at higher speeds and lower costs than conventional methods and with greater flexibility for computer automation. We illustrate its application in a controller for a scanning tunneling microscope coarse approach mechanism and discuss other possible applications and modifications of this circuit., National Science Foundation CAREER program, National Science Foundation MRSEC Program, Research Corporation Cottrell Scholarship

Published
2010

14. Scanning tunnelling microscopy imaging of symmetry-breaking structural distortion in the bismuth-based cuprate superconductors

Author

Zeljkovic, Ilija, primary, Main, Elizabeth J., additional, Williams, Tess L., additional, Boyer, M. C., additional, Chatterjee, Kamalesh, additional, Wise, W. D., additional, Yin, Yi, additional, Zech, Martin, additional, Pivonka, Adam, additional, Kondo, Takeshi, additional, Takeuchi, T., additional, Ikuta, Hiroshi, additional, Wen, Jinsheng, additional, Xu, Zhijun, additional, Gu, G. D., additional, Hudson, E. W., additional, and Hoffman, Jennifer E., additional

Published
2012
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20. Imaging the two gaps of the high-temperature superconductor Bi2Sr2CuO6+x.

Author

Boyer, M. C., Wise, W. D., Chatterjee, Kamalesh, Ming Yi, Kondo, Takeshi, Takeuchi, T., Ikuta, H., and Hudson, E. W.

Subjects
HIGH temperature superconductors, MATERIALS at high temperatures, SUPERCONDUCTORS, SPIN excitations, QUANTUM theory, PARTICLES (Nuclear physics), PHYSICS
Abstract

The nature and behaviour of electronic states in high-temperature superconductors are the centre of much debate. The pseudogap state, observed above the superconducting transition temperature, Tc, is seen by some as a precursor to the superconducting state. Others view it as a competing phase. Recently, this discussion has focused on the number of energy gaps in the system. Some experiments indicate a single energy gap, implying that the pseudogap is a precursor state. Others indicate two, suggesting that it is a competing or coexisting phase. Here, we use temperature-dependent scanning tunnelling spectroscopy of (Bi1−yPby)2Sr2CuO6+x to clarify the situation. We find a previously unobserved narrow and homogeneous gap that vanishes near Tc, superimposed on the typically observed inhomogeneous and broad gap, which is only weakly temperature dependent. These results not only support the two-gap picture, but also explain previously troubling differences between scanning tunnelling microscopy and other experimental measurements. [ABSTRACT FROM AUTHOR]

Published
2007
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21. Tumor Gene Expression and Interphase Chromatin Appearance in Xiphophorus1.

Author

ANDERS, FRITZ, CHATTERJEE, KAMALESH, SCHWAB, MANFRED, SCHOLL, EBERHARD, and ANDERS, ANNEROSE

Abstract

SYNOPSIS. (platyfish) exhibits spots which consist of neoplastically transformed pigment cells (T-cells). The spots actually represent extreme benign melanomas. Transformation to T-cells is mediated by a “tumor gene” (). Platyfish which develop from X-irradiated embryos reveal an increase of -expression resulting in an overproduction of T-cells to benign melanomas which can be compared to that observed in certain hybrids between the platyfish and (swordtail). Both the X irradiation-induced and the crossing conditioned increase of -expression represent a heritable alteration which might be related to a conversion from dispersed to condensed chromatin in the interphase nuclei. [ABSTRACT FROM PUBLISHER]

Published
1981

24. An auxiliary capacitor based ultra-fast drive circuit for shear piezoelectric motors

Author

Eric Hudson, W. D. Wise, Michael Boyer, Kamalesh Chatterjee, Massachusetts Institute of Technology. Department of Physics, Hudson, Eric, Chatterjee, Kamalesh, Boyer, Michael C., and Wise, W. D.

Subjects
Electric motor, Materials science, business.industry, Circuit design, Amplifier, Transistor, Electrical engineering, Hardware_PERFORMANCEANDRELIABILITY, Piezoelectricity, law.invention, Capacitor, law, Hardware_GENERAL, Hardware_INTEGRATEDCIRCUITS, business, Instrumentation, Ultrashort pulse, Voltage
Abstract

Shear piezoelectric motors frequently require large voltage changes on very short time scales. Since piezos behave electrically as capacitors, this requires a drive circuit capable of quickly sourcing or sinking a large amount of current at high voltages. Here we describe a novel circuit design using a high voltage amplifier, transistor switching stage, and auxiliary capacitor. This circuit can drive piezoelectric motors at higher speeds and lower costs than conventional methods and with greater flexibility for computer automation. We illustrate its application in a controller for a scanning tunneling microscope coarse approach mechanism and discuss other possible applications and modifications of this circuit., National Science Foundation CAREER program, National Science Foundation MRSEC Program, Research Corporation Cottrell Scholarship

Published
2009

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