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pro vyhledávání: '"R. Takalkar"'
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68 4.1 Introduction 68 4.2 Experimental Details 69 4.3 Results and Discussion 70 4.4 Conclusion 72 4.5 Acknowledgements 73 Keywords 73 References 731Centre for Excellence in Nano-composites, School of Mechanical and Building Sciences, VIT University,
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::c65331a4381fd36f6227ccb166da2d72
https://doi.org/10.1201/9781315161983-11
https://doi.org/10.1201/9781315161983-11
Akademický článek
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Autor:
Eric C. T. Harley, Z. Zhu, Judson R. Holt, Matthew W. Stoker, R. Takalkar, L. Black, Rainer Loesing, A. Chakravarti, F. Yang, Dominic J. Schepis, James Chingwei Li, Xiaolin Chen, R. Murphy, Anita Madan, Thomas N. Adam, Abhishek Dube
Publikováno v:
ECS Transactions. 28:63-71
Uniaxial tensile strain in the channel enhances electron mobility and hence the drive current in an N-type field-effect transistor (NFET). For enhancement of NFET drive current via channel strain, the incorporation of embedded silicon carbon (eSi:C)
Autor:
R. Takalkar, Anita Madan, Dominic J. Schepis, Eric C. Harley, Bin Yang, Abhishek Dube, Teresa L. Pinto, Zhibin Ren, Thomas N. Adam, Linda Black, Z. Zhu, Johan W. Weijtmans, Rainer Loesing, Jinghong Li, Ashima B. Chakravarti
Publikováno v:
ECS Transactions. 16:325-332
In addition to device scaling, strain engineering using SiC stressors in the S/D regions is important for nFET performance enhancement [1-3]. In this paper, we review the characterization of fully-strained epitaxial SiC and in-situ doped SiC:P films
Autor:
Scott Luning, Ashima B. Chakravarti, Z. Zhu, A. Gehring, Anita Madan, Alexander Reznicek, Guangrui Xia, R. Takalkar, Dan Mocuta, Dominic J. Schepis, B. Yang, Thomas N. Adam, E. Leobandung, Ka Kong Chan, J. Faltermeier, J. P. de Souza, Zhibin Ren, John Li, Rohit Pal, Eric C. Harley, Edward P. Maciejewski, Brian J. Greene, Abhishek Dube, D.-G. Park, M. Cai, D. K. Sadana, Linda Black, Bin Yang, Johan W. Weijtmans, G. Pei
Publikováno v:
ECS Transactions. 16:317-323
Summary In summary, this work demonstrates that integrating ISPD eSi:C stressor in the thick-oxide long-channel nMOS source and drain is feasible. Key challenges lie in both high-quality ISPD eSi:C EPI development and modification of the conventional
Rainwater harvesting is a technique for accumulating and storing of rainwater channelised to flow to the ponds, lakes and over- and underground storage places, which can be used not only to recharge the groundwater, but also to provide drinking water
Autor:
Herbert L. Ho, Jinping Liu, Paul C. Parries, Norman Robson, Jing Li, Puneet Goyal, S.S. Iyer, Ming Yin, Babar A. Khan, Zhengwen Li, Paul D. Agnello, K. V. Hawkins, Sunfei Fang, T. Weaver, Scott R. Stiffler, Kevin McStay, Rishikesh Krishnan, W. Davies, R. Takalkar, T. Kirihata, Sami Rosenblatt, S. Galis, A. Blauberg, Shreesh Narasimha, Michael P. Chudzik, Amanda L. Tessier, William K. Henson, W. Kong, Edward P. Maciejewski, Alberto Cestero, Nauman Zafar Butt, Joseph Ervin, S. Gupta, Jeyaraj Antony Johnson, S. Rombawa, Sungjae Lee, J. Barth, Ying Zhang
Publikováno v:
2010 International Electron Devices Meeting.
We present industry's smallest eDRAM cell and the densest embedded memory integrated into the highest performance 32nm High-K Metal Gate (HKMG) SOI based logic technology. The cell is aggressively scaled at 58% (vs. 45nm) and features the key innovat
Autor:
Russell H. Arndt, Ashima B. Chakravarti, Anthony G. Domenicucci, Amanda L. Tessier, Jinping Liu, Sunfei Fang, Kevin McStay, Zhengwen Li, Randolph F. Knarr, S. Lee, Joseph F. Shepard, Herbert L. Ho, A. Arya, R. Venigalla, W. Davies, R. Takalkar, Rishikesh Krishnan, Paul C. Parries, B. Morgenfeld, Xin Li, S. Gupta, Michael P. Chudzik, Scott R. Stiffler, Puneet Goyal, Babar A. Khan, Sadanand V. Deshpande, J. Dadson, Scott D. Allen
Publikováno v:
2010 IEEE International SOI Conference (SOI).
In this paper, we describe the unique scaling challenges, critical sources of variation, and the potential trench leakage mechanisms of 32nm trench capacitors that utilize high-к/metal electrode materials. This is the first eDRAM technology that has
Autor:
Roland Hahn, Katherine V. Hawkins, Oliver D. Patterson, Brian W. Messenger, Eric H. Beckmann, R. Takalkar, Xing J. Zhou
Publikováno v:
2010 IEEE/SEMI Advanced Semiconductor Manufacturing Conference (ASMC).
Embedded DRAM will play a much larger part in IBM server microprocessors for new SOI technologies. Etch of a deep trench (DT) into the substrate, which is used to form the capacitor, is a complicated multi-step process. One of the key elements is etc