K. Likharev’s Research Group

Nanoelectronics: Devices, Circuits, and Applications

 

           

            Current Research Topics:

                        CMOL memories

        CMOL digital logic circuits

        CMOL-based neuromorphic networks

        Molecular devices for CMOL circuits

        Nanoscale field-effect transistors

        Tunneling through metal-oxide barriers

Recent Review Papers:

            General Nanoelectronics:

  - K. K. Likharev, "Electronics Below 10 nm", in: J. Greer et al. (eds.), Nano and Giga Challenges in Microelectronics (Elsevier, Amsterdam, 2003), pp. 27-68.

            CMOL Circuits:

  - K. K. Likharev and D. B. Strukov, "Prospects for the Development of Digital CMOL Circuits", Proc. of NanoArch’07, pp. 109-116.

  - K. K. Likharev, “Hybrid Semiconductor/Nanoelectronic Circuits: Freeing Advanced Lithography from the Alignment Accuracy Burden", J. Vac. Sci. Technol. B, vol. 25, pp. 2531-2536, Dec. 2007.

 

Some Recent Talks:

            General Nanoelectronics:

                        - K. K. Likharev, “Device and Circuit Concepts for Ultralow Power”, presentation at a DSRC/DARPA Workshop, Cambridge, MA (June 2006)

            CMOL Circuits:

   - K. K. Likharev, "Hybrid Semiconductor/Nanoelectronic Circuits", lecture at the Winter School Beyond Moore’s Law, Kenting, Taiwan (January 2008)

   - K. K. Likharev, G. S. Rose, and D. B. Strukov, “Hybrid CMOS / Nanoelectronic Circuits: Opportunities and Challenges”, tutorial at ISCAS’08, Seattle, WA (May 2008)

             Part 1 (KKL)

             Part 2a (DBS)

             Part 2b (GSR)

             Part 3 (DBS)

             Part 4 (KKL)

             Part 5 (KKL)

 

Recent PhD Dissertations:

                                      - Y. Kinkhabwala, "Quasi-continuous Charge Transfer via Electron Hopping" (2005)

                                      - J. H. Lee, "CMOL CrossNets as Defect-Tolerant Classifiers" (2007)

                                      - X. Liu, "Electron Transport Through Aluminum Oxide Tunnel Barriers and OPE-Based Molecular Junctions" (2007)

                                      - X. Ma, "Global Reinforcement Training of CrossNets" (2007)

                                      - D. B. Strukov, "Digital Architectures for Hybrid CMOS/Nanodevice Circuits" (2006)

                                      - Ö. Türel, "Devices and Circuits for Nanoelectronic Implementation of Artificial Neural Networks" (2007)

 

Current Research Group:

PhD Students:
   - Jingbin Li (molecular FETs - theory)
   - Nikita Simonian (molecular single-electron devices - theory) 
   - Zhongkul Tan (metal-oxide tunnel barriers and molecular junctions - experiment)
   - Thomas Walls (quantum measurements and nanoscale FETs - theory)

Supporting Staff:

   - Pernille Jensen (administration)
   - Yuri Polyakov (experimental techniques)

                  

                   Alumni:

                                    Postdocs and Research Associates:

   - Elena Cimpoiasu (2001-2004)
   - Alexander Korotkov (1998-2000)
   - Fedor Pikus (1996-1997)
   - Yehuda Naveh (1996-2000)
   - Victor Sverdlov (1997-2003)

                             PhD Students:

   - Ruby Chen (PhD 1996)
   - Daniel Kaplan (PhD 2002)

   - Yusuf Kinkhabwala (PhD 2005)

   - Jung Hoon Lee (PhD 2007)

   - Xueqing Liu (PhD 2007)
   - Xiaolong Ma (PhD 2007)

   - Kenji Matsuoka (PhD 1997)

   - Dmitri Strukov (PhD 2006)
   - Özgür Türel (PhD 2007)

                             Undergraduate and Visiting Students:

   - Simon Fölling (2000-2001)

   - Samantha Roberts (2004-2005)

 

Computing Facilities:

          Njal cluster

          Seawulf cluster

          New York Blue supercomputer

          DoD’s HPCMP program

 

Current Support:

            AFOSR (Quantum Electronic Solids Program)

          FCRP (via FENA Center)

          NSF (CISE Directorate)

 

Revised 2008-01-18

K. Likharev