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Your search keyword '"Venkatesan T"' showing total 24 results
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24 results on '"Venkatesan T"'

1. Origin and Quenching of Novel ultraviolet and blue emission in NdGaO3: Concept of Super-Hydrogenic Dopants.

Author

Ghosh, Siddhartha, Saha, Surajit, Liu, Zhiqi, Motapothula, M, Patra, Abhijeet, Yakovlev, Nikolai, Cai, Yao, Prakash, Saurav, Huang, Xiao Hu, Tay, Chuan Beng, Cong, Chun Xiao, Bhatt, Thirumaleshwara, Dolmanan, Surani B, Chen, Jianqiang, Lü, Weiming, Huang, Zhen, Tripathy, Sudhiranjan, Chua, Soo Jin, Yu, Ting, Asta, Mark, Ariando, A, and Venkatesan, T

Subjects
Biochemistry and Cell Biology, Other Physical Sciences
Abstract

In this study we report the existence of novel ultraviolet (UV) and blue emission in rare-earth based perovskite NdGaO3 (NGO) and the systematic quench of the NGO photoluminescence (PL) by Ce doping. Study of room temperature PL was performed in both single-crystal and polycrystalline NGO (substrates and pellets) respectively. Several NGO pellets were prepared with varying Ce concentration and their room temperature PL was studied using 325 nm laser. It was found that the PL intensity shows a systematic quench with increasing Ce concentration. XPS measurements indicated that nearly 50% of Ce atoms are in the 4+ state. The PL quench was attributed to the novel concept of super hydrogenic dopant (SHD)", where each Ce4+ ion contributes an electron which forms a super hydrogenic atom with an enhanced Bohr radius, due to the large dielectric constant of the host. Based on the critical Ce concentration for complete quenching this SHD radius was estimated to be within a range of 0.85 nm and 1.15 nm whereas the predicted theoretical value of SHD radius for NdGaO3 is ~1.01 nm.

Published
2016

9. Unconventional Transport through Graphene on SrTiO3: A Plausible Effect of SrTiO3 Phase-Transitions

Author

Saha, Surajit, primary, Kahya, Orhan, additional, Jaiswal, Manu, additional, Srivastava, Amar, additional, Annadi, Anil, additional, Balakrishnan, Jayakumar, additional, Pachoud, Alexandre, additional, Toh, Chee-Tat, additional, Hong, Byung-Hee, additional, Ahn, Jong-Hyun, additional, Venkatesan, T., additional, and Özyilmaz, Barbaros, additional

Published
2014
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10. Switchable Ultrathin Quarter-wave Plate in Terahertz Using Active Phase-change Metasurface.

Author

Dacheng Wang, Lingchao Zhang, Yinghong Gu, Mehmood, M. Q., Yandong Gong, Srivastava, Amar, Linke Jian, Venkatesan, T., Cheng-Wei Qiu, and Minghui Hong

Subjects
METAMATERIALS, VANADIUM dioxide, PHASE transitions, SEMICONDUCTORS, FEASIBILITY studies, TERAHERTZ materials
Abstract

Metamaterials open up various exotic means to control electromagnetic waves and among them polarization manipulations with metamaterials have attracted intense attention. As of today, static responses of resonators in metamaterials lead to a narrow-band and single-function operation. Extension of the working frequency relies on multilayer metamaterials or different unit cells, which hinder the development of ultra-compact optical systems. In this work, we demonstrate a switchable ultrathin terahertz quarter-wave plate by hybridizing a phase change material, vanadium dioxide (VO2), with a metasurface. Before the phase transition, VO2 behaves as a semiconductor and the metasurface operates as a quarter-wave plate at 0.468 THz. After the transition to metal phase, the quarter-wave plate operates at 0.502 THz. At the corresponding operating frequencies, the metasurface converts a linearly polarized light into a circularly polarized light. This work reveals the feasibility to realize tunable/active and extremely low-profile polarization manipulation devices in the terahertz regime through the incorporation of such phase-change metasurfaces, enabling novel applications of ultrathin terahertz meta-devices. [ABSTRACT FROM AUTHOR]

Published
2015
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11. Unconventional Transport through Graphene on SrTiO3: A Plausible Effect of SrTiO3 Phase-Transitions.

Author

Saha, Surajit, Kahya, Orhan, Jaiswal, Manu, Srivastava, Amar, Annadi, Anil, Balakrishnan, Jayakumar, Pachoud, Alexandre, Chee-Tat Toh, Byung-Hee Hong, Jong-Hyun Ahn, Venkatesan, T., and Özyilmaz, Barbaros

Subjects
ELECTRONIC equipment, POLYCYCLIC aromatic hydrocarbons, ELECTRIC properties of thin films, COULOMB functions, COMPUTER engineering, SPINTRONICS
Abstract

High-k dielectric oxides are supposedly ideal gate-materials for ultra-high doping in graphene and other 2D-crystals. Here, we report a temperature-dependent electronic transport study on chemical vapor deposited-graphene gated with SrTiO3 (STO) thin film substrate. At carrier densities away from charge neutrality point the temperature-dependent resistivity of our graphene samples on both STO and SiO2/Si substrates show metallic behavior with contributions from Coulomb scattering and flexural phonons attributable to the presence of characteristic quasi-periodic nano-ripple arrays. Significantly, for graphene samples on STO substrates we observe an anomalous 'slope-break' in the temperature-dependent resistivity for T=50 to 100 K accompanied by a decrease in mobility above 30 K. Furthermore, we observe an unusual decrease in the gate-induced doping-rate at low temperatures, despite an increase in dielectric constant of the substrate. We believe that a complex mechanism is at play as a consequence of the structural phase transition of the underlying substrate showing an anomalous transport behavior in graphene on STO. The anomalies are discussed in the context of Coulomb as well as phonon scattering. [ABSTRACT FROM AUTHOR]

Published
2014
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12. Magnetic Modes in Rare Earth Perovskites: A Magnetic-Field-Dependent Inelastic Light Scattering study.

Author

Saha, Surajit, Cao, Bing-Chen, Motapothula, M., Cong, Chun-Xiao, Sarkar, Tarapada, Srivastava, Amar, Sarkar, Soumya, Patra, Abhijeet, Ghosh, Siddhartha, Ariando, Coey, J. M. D., Yu, Ting, and Venkatesan, T.

Abstract

Here, we report the presence of defect-related states with magnetic degrees of freedom in crystals of LaAlO3 and several other rare-earth based perovskite oxides using inelastic light scattering (Raman spectroscopy) at low temperatures in applied magnetic fields of up to 9 T. Some of these states are at about 140 meV above the valence band maximum while others are mid-gap states at about 2.3 eV. No magnetic impurity could be detected in LaAlO3 by Proton-Induced X-ray Emission Spectroscopy. We, therefore, attribute the angular momentum-like states in LaAlO3 to cationic/anionic vacancies or anti-site defects. Comparison with the other rare earth perovskites leads to the empirical rule that the magnetic-field-sensitive transitions require planes of heavy elements (e.g. lanthanum) and oxygen without any other light cations in the same plane. These magnetic degrees of freedom in rare earth perovskites with useful dielectric properties may be tunable by appropriate defect engineering for magneto-optic applications. [ABSTRACT FROM AUTHOR]

Published
2016
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17. Tailoring the Two Dimensional Electron Gas at Polar ABO3/SrTiO3 Interfaces for Oxide Electronics.

Author

Li, Changjian, Liu, Zhiqi, Lü, Weiming, Wang, Xiao Renshaw, Annadi, Anil, Huang, Zhen, Zeng, Shengwei, Ariando, and Venkatesan, T.

Subjects
ELECTRON gas, PEROVSKITE, CRYSTAL structure, METALLIC glasses, OXIDE electrodes
Abstract

The 2D electron gas at the polar/non-polar oxide interface has become an important platform for several novel oxide electronic devices. In this paper, the transport properties of a wide range of polar perovskite oxide ABO3/SrTiO3 (STO) interfaces, where ABO3 includes LaAlO3, PrAlO3, NdAlO3, NdGaO3 and LaGaO3 in both crystalline and amorphous forms, were investigated. A robust 4 unit cell (uc) critical thickness for metal insulator transition was observed for crystalline polar layer/STO interface while the critical thickness for amorphous ones was strongly dependent on the B site atom and its oxygen affinity. For the crystalline interfaces, a sharp transition to the metallic state (i.e. polarization catastrophe induced 2D electron gas only) occurs at a growth temperature of 515 °C which corresponds to a critical relative crystallinity of ~70 ± 10% of the LaAlO3 overlayer. This temperature is generally lower than the metal silicide formation temperature and thus offers a route to integrate oxide heterojunction based devices on silicon. [ABSTRACT FROM AUTHOR]

Published
2015
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18. Unexpected observation of spatially separated Kondo scattering and ferromagnetism in Ta alloyed anatase TiO2 thin films.

Author

Sarkar, T. P., Gopinadhan, K., Motapothula, M., Saha, S., Huang, Z., Dhar, S., Patra, A., Lu, W. M., Telesio, F., Pallecchi, I., Ariando, Marré, D., and Venkatesan, T.

Subjects
FERROMAGNETISM, TITANIUM dioxide, RENORMALIZATION group theory (Statistical physics), KONDO effect, CONDENSED matter physics
Abstract

We report the observation of spatially separated Kondo scattering and ferromagnetism in anatase Ta0.06Ti0.94O2 thin films as a function of thickness (10-200 nm). The Kondo behavior observed in thicker films is suppressed on decreasing thickness and vanishes below ~25 nm. In 200 nm film, transport data could be fitted to a renormalization group theory for Kondo scattering though the carrier density in this system is lower by two orders of magnitude, the magnetic entity concentration is larger by a similar magnitude and there is strong electronic correlation compared to a conventional system such as Cu with magnetic impurities. However, ferromagnetism is observed at all thicknesses with magnetic moment per unit thickness decreasing beyond 10 nm film thickness. The simultaneous presence of Kondo and ferromagnetism is explained by the spatial variation of defects from the interface to surface which results in a dominantly ferromagnetic region closer to substrate-film interface while the Kondo scattering is dominant near the surface and decreasing towards the interface. This material system enables us to study the effect of neighboring presence of two competing magnetic phenomena and the possibility for tuning them. [ABSTRACT FROM AUTHOR]

Published
2015
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19. Functional ferroelectric tunnel junctions on silicon.

Author

Guo, Rui, Wang, Zhe, Zeng, Shengwei, Han, Kun, Huang, Lisen, Schlom, Darrell G., Venkatesan, T., Ariando, and Chen, Jingsheng

Subjects
FERROELECTRIC devices, COMPUTER storage devices, SILICON, SUBSTRATES (Materials science), X-ray diffraction, TRANSMISSION electron microscopy
Abstract

The quest for solid state non-volatility memory devices on silicon with high storage density, high speed, low power consumption has attracted intense research on new materials and novel device architectures. Although flash memory dominates in the non-volatile memory market currently, it has drawbacks, such as low operation speed, and limited cycle endurance, which prevents it from becoming the 'universal memory'. In this report, we demonstrate ferroelectric tunnel junctions (Pt/BaTiO3/La0.67Sr0.33MnO3) epitaxially grown on silicon substrates. X-ray diffraction spectra and high resolution transmission electron microscope images prove the high epitaxial quality of the single crystal perovskite films grown on silicon. Furthermore, the write speed, data retention and fatigue properties of the device compare favorably with flash memories. The results prove that the silicon-based ferroelectric tunnel junction is a very promising candidate for application in future non-volatile memories. [ABSTRACT FROM AUTHOR]

Published
2015
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21. Controlling Kondo-like Scattering at the SrTiO3-based Interfaces.

Author

Han K, Palina N, Zeng SW, Huang Z, Li CJ, Zhou WX, Wan DY, Zhang LC, Chi X, Guo R, Chen JS, Venkatesan T, Rusydi A, and Ariando

Abstract

The observation of magnetic interaction at the interface between nonmagnetic oxides has attracted much attention in recent years. In this report, we show that the Kondo-like scattering at the SrTiO3-based conducting interface is enhanced by increasing the lattice mismatch and growth oxygen pressure PO2. For the 26-unit-cell LaAlO3/SrTiO3 (LAO/STO) interface with lattice mismatch being 3.0%, the Kondo-like scattering is observed when PO2 is beyond 1 mTorr. By contrast, when the lattice mismatch is reduced to 1.0% at the (La0.3Sr0.7)(Al0.65Ta0.35)O3/SrTiO3 (LSAT/STO) interface, the metallic state is always preserved up to PO2 of 100 mTorr. The data from Hall measurement and X-ray absorption near edge structure (XANES) spectroscopy reveal that the larger amount of localized Ti(3+) ions are formed at the LAO/STO interface compared to LSAT/STO. Those localized Ti(3+) ions with unpaired electrons can be spin-polarized to scatter mobile electrons, responsible for the Kondo-like scattering observed at the LAO/STO interface.

Published
2016
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22. Parallel charge sheets of electron liquid and gas in La0.5Sr0.5TiO3/SrTiO3 heterostructures.

Author

Renshaw Wang X, Sun L, Huang Z, Lü WM, Motapothula M, Annadi A, Liu ZQ, Zeng SW, Venkatesan T, and Ariando

Abstract

We show here a new phenomenon in La0.5Sr0.5TiO3/SrTiO3 (LSTO/STO) heterostructures; that is a coexistence of three-dimensional electron liquid (3DEL) and 2D electron gas (2DEG), separated by an intervening insulating LSTO layer. The two types of carriers were revealed through multi-channel analysis of the evolution of nonlinear Hall effect as a function of film thickness, temperature and back gate voltage. We demonstrate that the 3D electron originates from La doping in LSTO film and the 2D electron at the surface of STO is due to the polar field in the intervening insulating layer. As the film thickness is reduced below a critical thickness of 6 unit cells (uc), an abrupt metal-to-insulator transition (MIT) occurs without an intermediate semiconducting state. The properties of the LSTO layer grown on different substrates suggest that the insulating phase of the intervening layer is a result of interface strain induced by the lattice mismatch between the film and substrate. Further, by fitting the magnetoresistance (MR) curves, the 6 unit cell thick LSTO is shown to exhibit spin-orbital coupling. These observations point to new functionalities, in addition to magnetism and superconductivity in STO-based systems, which could be exploited in a multifunctional context.

Published
2015
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23. Tailoring the Two Dimensional Electron Gas at Polar ABO3/SrTiO3 Interfaces for Oxide Electronics.

Author

Li C, Liu Z, Lü W, Wang XR, Annadi A, Huang Z, Zeng S, Ariando, and Venkatesan T

Abstract

The 2D electron gas at the polar/non-polar oxide interface has become an important platform for several novel oxide electronic devices. In this paper, the transport properties of a wide range of polar perovskite oxide ABO3/SrTiO3 (STO) interfaces, where ABO3 includes LaAlO3, PrAlO3, NdAlO3, NdGaO3 and LaGaO3 in both crystalline and amorphous forms, were investigated. A robust 4 unit cell (uc) critical thickness for metal insulator transition was observed for crystalline polar layer/STO interface while the critical thickness for amorphous ones was strongly dependent on the B site atom and its oxygen affinity. For the crystalline interfaces, a sharp transition to the metallic state (i.e. polarization catastrophe induced 2D electron gas only) occurs at a growth temperature of 515 °C which corresponds to a critical relative crystallinity of ~70 ± 10% of the LaAlO3 overlayer. This temperature is generally lower than the metal silicide formation temperature and thus offers a route to integrate oxide heterojunction based devices on silicon.

Published
2015
Full Text
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24. Unexpected observation of spatially separated Kondo scattering and ferromagnetism in Ta alloyed anatase TiO2 thin films.

Author

Sarkar TP, Gopinadhan K, Motapothula M, Saha S, Huang Z, Dhar S, Patra A, Lu WM, Telesio F, Pallecchi I, Ariando, Marré D, and Venkatesan T

Abstract

We report the observation of spatially separated Kondo scattering and ferromagnetism in anatase Ta0.06Ti0.94O2 thin films as a function of thickness (10-200 nm). The Kondo behavior observed in thicker films is suppressed on decreasing thickness and vanishes below ~25 nm. In 200 nm film, transport data could be fitted to a renormalization group theory for Kondo scattering though the carrier density in this system is lower by two orders of magnitude, the magnetic entity concentration is larger by a similar magnitude and there is strong electronic correlation compared to a conventional system such as Cu with magnetic impurities. However, ferromagnetism is observed at all thicknesses with magnetic moment per unit thickness decreasing beyond 10 nm film thickness. The simultaneous presence of Kondo and ferromagnetism is explained by the spatial variation of defects from the interface to surface which results in a dominantly ferromagnetic region closer to substrate-film interface while the Kondo scattering is dominant near the surface and decreasing towards the interface. This material system enables us to study the effect of neighboring presence of two competing magnetic phenomena and the possibility for tuning them.

Published
2015
Full Text
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