- PAM Dirac -

“... one of the fundamental features of nature is that fundamental physical laws are described in terms of a mathematical theory of great beauty and power”

PUBLICATIONS

J58. Manipatruni, S., Nikonov, D.E., Lin, C.C., Gosavi, T.A., Liu, H., Prasad, B., Huang, Y.L., Bonturim, E., Ramesh, R. and Young, I.A., 2019. Scalable energy-efficient magnetoelectric spin–orbit logic. Nature, 565(7737), p.35.

J57. S. Manipatruni, D. Nikonov, I.A. Young, Towards Computing with Spin and Polarization (Nature Physics)

J56. S. Manipatruni, D. Nikonov, C.C. Lin,A.R. Damodaran, Z. Chen, P. Bhagwati, Y. Lin, R. Ramesh and I. Young, Electrical Control of Exchange Bias in Ferromagnet-Multiferroic Devices at Room Temperature, (Science Advances)

J55. S. Manipatruni, Dmitri E. Nikonov, Huichu Liu, and Ian A. Young. "Response to Comment on 'Spin-Orbit Logic with Magnetoelectric Nodes: A Scalable Charge Mediated Nonvolatile Spintronic Logic'(arXiv: 1607.06690)." arXiv preprint arXiv:1703.01559 (2017).

J54. Dutta, S, D. E. Nikonov, S. Manipatruni, I. A. Young, and A. Naeemi. "Overcoming thermal noise in non-volatile spin wave logic." Scientific Reports 7 (2017).

J53. Vaysset, A, Mauricio M, D. E. Nikonov, S. Manipatruni, I. A. Young, I. P. Radu, and A. Thean. "Operating conditions and stability of spin torque majority gates: Analytical understanding and numerical evidence." Journal of Applied Physics 121, no. 4 (2017): 043902.

J52. Patil, Ameya D., S. Manipatruni, Dmitri Nikonov, Ian A. Young, and Naresh R. Shanbhag. "Shannon-inspired Statistical Computing to Enable Spintronics." arXiv preprint arXiv:1702.06119 (2017).

J51. Iraei, Rouhollah Mousavi, S. Manipatruni, Dmitri Nikonov, Ian Young, and Azad Naeemi. "Electrical-Spin Transduction for CMOS-Spintronic Interface and Long-Range Interconnects." IEEE Journal on Exploratory Solid-State Computational Devices and Circuits (2017)

J50. Nikonov, Dmitri E., S. Manipatruni, and Ian A. Young. "Patterns and thresholds of magnetoelectric switching in spin logic devices." arXiv preprint arXiv:1709.07047 (2017).

J49Iraei, Rouhollah Mousavi, Nickvash Kani, Sourav Dutta, Dmitri E. Nikonov, S. Manipatruni, Ian A. Young, John T. Heron, and Azad Naeemi. "Clocked Magnetostriction-Assisted Spintronic Device Design and Simulation." arXiv preprint arXiv:1711.08568 (2017).

J48. Vaysset, A., Manfrini, M., Nikonov, D.E., Manipatruni, S., Young, I.A., Radu, I.P. and Thean, A., 2017,”demonstration of a majority spin logic device”


J47. Manipatruni, S., Nikonov, D.E., R. Ramamoorthy and Young, I.A., 2015. Spin-Orbit Logic with Magnetoelectric Nodes: A Scalable Charge Mediated Nonvolatile Spintronic Logic. ArXiv preprint arXiv: 1512.05428. (updated in 2017 w/detailed energy calculations)


J46. Chang, Sou-Chi, Uygar E. Avci, Dmitri E. Nikonov, Sasikanth Manipatruni, and Ian A. Young. "Physical Origin of Transient Negative Capacitance in a Ferroelectric Capacitor." Physical Review Applied 9, no. 1 (2018): 014010

J45. Nikonov, D.E., Manipatruni, S. and Young, I.A., 2017. Patterns and Thresholds of Magnetoelectric Switching in Spin Logic Devices. arXiv preprint arXiv:1709.07047.

J44. Dutta, S., Nikonov, D.E., Manipatruni, S., Young, I.A. and Naeemi, A., 2017. Overcoming thermal noise in non-volatile spin wave logic. Scientific Reports, 7.

J43. Pourahmad, V., Manipatruni, S., Nikonov, D., Young, I. and Afshari, E., 2017. Nonboolean Pattern Recognition Using Chains of Coupled CMOS Oscillators as Discriminant Circuits. IEEE Journal on Exploratory Solid-State Computational Devices and Circuits, 3, pp.1-9. (Oscillatory networks, cited by DARPA as an example test system for beyond CMOS)

J42. Manipatruni, S, Dmitri E. Nikonov, and Ian A. Young. "Material Targets for Scaling All-Spin Logic." Physical Review Applied 5, no. 1 (2016): 014002.

J41. Gosavi, Tanay, S. Manipatruni, Sriharsha Aradhya, Graham Rowlands, Dmitri Nikonov, Ian Young, and Sunil Ashok Bhave. "Experimental Demonstration of Efficient Spin-Orbit Torque Switching of an MTJ with sub-100 ns Pulses." IEEE Transactions on Magnetics (2017).

J40. Dutt, A., Luke, K., Manipatruni, S., Gaeta, A.L., Nussenzveig, P. and Lipson, M., 2015. On-chip optical squeezing. Physical Review Applied, 3(4), p.044005.

J39. Dutta, S., Nikonov, D.E., Manipatruni, S., Young, I.A. and Naeemi, A., 2015. Compact Physical Model for Crosstalk in Spin-Wave Interconnects. Electron Devices, IEEE Transactions on, 62(11), pp.3863-3869.

J38. Dutta, S., Nikonov, D.E., Manipatruni, S., Young, I.A. and Naeemi, A., 2015. Phase-dependent deterministic switching of magnetoelectric spin wave detector in the presence of thermal noise via compensation of demagnetization. Applied Physics Letters, 107(19), p.192404.

J37. Chang, S.C., Dutta, S., Manipatruni, S., Nikonov, D.E., Young, I.A. and Naeemi, A., 2015. Interconnects for All-Spin Logic Using Automotion of Domain Walls. Exploratory Solid-State Computational Devices and Circuits, IEEE Journal on, 1, pp.49-57.

J36. Dutta, S., Chang, S.C., Kani, N., Nikonov, D.E., Manipatruni, S., Young, I.A. and Naeemi, A., 2015. Non-volatile Clocked Spin Wave Interconnect for Beyond-CMOS Nanomagnet Pipelines. Scientific reports, 5.

J35. Nikonov, D.E., Manipatruni, S. and Young, I.A., 2015. Cascade-able spin torque logic gates with input–output isolation. Physica Scripta, 90(7), p.074047.

J34. Chang, S.C., Manipatruni, S., Nikonov, D.E., Young, I.A. and Naeemi, A., 2015 Scaling Limits on All-spin Logic, Trans in magnetics (accepted)

J33. Chang, S.C., Manipatruni, S., Nikonov, D.E., Young, I.A. and Naeemi, A., 2015 , Clocked Domain Wall Logic using Magnetoelectric Effects (accepted to JXCDC)

J32. Spin torque majority gate devices: towards 300mm wafer integration w/ IMEC, in review at TMAG

J31. A. Patel, Manipatruni, S., Nikonov, D.E., Young, I.A., N. Shanbhag, Shannon inspired stochastic computing, MMM accepted.

J30. S. Manipatruni et al Energy-delay performance of giant spin Hall effect switching for dense magnetic memory Appl. Phys. Express 7 103001 2014

J29. Sou-Chi Chang; Manipatruni, S.; Nikonov, D.E.; Young, I.A.; Naeemi, A., "Design and Analysis of Si Interconnects for All-Spin Logic," Magnetics, IEEE Transactions on , vol.50, no.9, pp.1,13, Sept. 2014. Cover Page

 

J28. Sou-Chi Chang; Iraei, R.M.; Manipatruni, S.; Nikonov, D.E.; Young, I.A.; Naeemi, A., "Design and Analysis of Copper and Aluminum Interconnects for All-Spin Logic," Electron Devices, IEEE Transactions on , vol.61, no.8, pp.2905,2911, Aug. 2014

 

J27. S. Manipatruni, D. Nikonov, I.A. Young, Vector Spin Circuit Modeling of MTJ based Spin Transfer Devices, Journal of Applied Physics, 2014.

 

J26. D. Nikonov, S. Manipatruni, I.A. Young, “Switching efficiency improvement in spin torque majority gates”, Journal of Applied Physics, 2014

 

J25. Nikonov, Dmitri E. and Manipatruni, S.and Young, Ian A.,  Automotion of domain walls for spintronic interconnects Journal of Applied Physics, 115, 213902 (2014)

 

J24. P. Bonhommie, S. Manipatruni, R. Mousavi, D. Nikonov, I.A. Young, A. Naemi, “Circuit Simulation of Magnetization Dynamics and Spin Transport” (Accepted to Transactions in Electron Devices) 2014

 

J23. Dutta, S.; Nikonov, D.E.; Manipatruni, S.; Young, I.A.; Naeemi, A., "SPICE Circuit Modeling of PMA Spin Wave Bus Excited Using Magnetoelectric Effect," Magnetics, IEEE Transactions on , vol.50, no.9, pp.1,11, Sept. 2014

 

J22. S. Manipatruni, D.E. Nikonov, I.A. Young, "Voltage and Energy-Delay Performance of Giant Spin Hall Effect Switching for Magnetic Memory and Logic." arXiv preprint arXiv:1301.5374 (2013).  (http://arxiv.org/abs/1301.5374 )

J22. Dutt, A., Luke, K., Manipatruni, S., Gaeta, A. L., Nussenzveig, P., & Lipson, M. (2013). On-Chip Optical Squeezing. arXiv preprint arXiv:1309.6371. (http://arxiv.org/abs/1309.6371)

J21. S. Manipatruni, D.E. Nikonov, I.A. Young, “Material Scaling for All Spin Logic” (In review Scientific reports http://arxiv.org/abs/1212.3362 )

J20. S. Manipatruni, D.E. Nikonov, I.A. Young,  All-spin nanomagnetic state elements, Appl. Phys. Lett. 103, 063503 (2013), DOI:10.1063/1.4810904

J19. Manipatruni, S.; Lipson, M.; Young, I., "Device Scaling Considerations for Nanophotonic CMOS Global Interconnects," Selected Topics in Quantum Electronics, IEEE Journal of , vol.PP, no.99, pp.1,1, 0doi: 10.1109/JSTQE.2013.2239262

J18. Manipatruni, S.; Nikonov, D.E.; Young, I.A., "Modeling and Design of Spintronic Integrated Circuits," Circuits and Systems I: Regular Papers, IEEE Transactions on , vol.59, no.12, pp.2801,2814, Dec. 2012

J17. Zhang, M., Wiederhecker, G. S., Manipatruni, S., Barnard, A., McEuen, P., & Lipson, M. (2012). Synchronization of micromechanical oscillators using light. Physical review letters, 109(23), 233906. (Cover page PRL 24th July 2012)

J16. G. Wiederhecker, S. Manipatruni, and M. Lipson, “Giant tuning of optomechanical structures”, (Optics Express, Vol. 19, Issue 3, pp. 2782-2790 (2011))

J15. S. Manipatruni, L. Chen, K. Preston and M. Lipson, “Ultra Low Power Silicon Microring Modulators: 130mV drive voltage modulation on Silicon”, Opt. Express 18, 18235-18242 (2010)

J14. A. Biberman*, S. Manipatruni*, N. Ophir, L. Chen, M. Lipson, K. Bergman, “First demonstration of long-haul transmission using silicon microring modulators”, Optics Express, Vol. 18, Issue 15, pp. 15544-15552 (2010)  (* co first authors)

J13.  S. Manipatruni, L. Chen and M. Lipson, “Ultra-wide Bandwidth WDM modulation on Silicon” Opt. Express 18, 16858-16867 (2010)   

 J12. J. Cardenas, S. Manipatruni, J. Khurgin,  P. Morton and M. Lipson, “Ultra-Wide Bandwidth Tunable True Time Delays on Silicon for Phased Arrays ” (Submitted, a conference version was presented at GFP 2009)
 
J11. H. L. R. Lira, S. Manipatruni, and M. Lipson, “Broadband Hitless Silicon Electro-optic Switch for Optical Networks On-Chip” Opt. Express 17, 22271-22280 (2009) 

J10. L. Chen, K. Preston, S. Manipatruni, and M. Lipson, "Integrated GHz silicon photonic interconnect with micrometer-scale modulators and detectors," Opt. Express 17, 15248-15256 (2009)       
                

J9. K. Preston, S. Manipatruni, C. B. Poitras, M. Lipson, “"Deposited Silicon High-speed Integrated Electro-optic Modulator", (Opt. Express 17, 5118-5124 (2009) 

 

J8. S. Manipatruni, J.T. Robinson and M. Lipson, “Optical Non-Reciprocity in Optomechanical Structures” Phys. Rev. Lett. 102, 213903 (2009)

 

J7. S. Manipatruni, R.K. Dokania, B. Schmidt, J. Shakya, A. B. Apsel and M. Lipson, "Wide Temperature Range Operation of  Resonant Silicon Electro-optic Modulator" Vol. 33, No. 19 (2008)

 

J6. S. Manipatruni, C. B. Poitras,  Q.Xu and M. Lipson, "High Speed Electro-Optic Tuning of the Optical Quality Factor of a Silicon Micro-cavity," Optics Letters Vol. 33, No. 14 (08/01/2008) Link  (Also Selected to the Virtual Journal of Ultrafast Science, The American Institute of Physics, Volume 7, Issue 9 September 2008)

 

 J5. S. Manipatruni, P. Dong, Q.Xu and M. Lipson, "Tunable Super luminal Pulse Propagation on a Silicon Chip " Vol. 33, No. 24 (12/15/2008)  Optics Letters.


J4. P. Dong, S. F. Preble, J. T. Robinson, S. Manipatruni, and M. Lipson, “Inducing Photonic Transitions between Discrete Modes in a Silicon Optical Microcavity” Phys. Rev. Lett. 100, 033904 (2008)

 

J3. S. Manipatruni, Q.Xu and M. Lipson, "PINIP based High-Speed High-Extinction Micron Scale Silicon Electro-optic Modulator," Opt. Express Vol. 15, No. 20, (2007) (Cited 42 times)

 

J2. B. Schmidt, Q. Xu, J. Shakya, S. Manipatruni, and M. Lipson, " Compact electro-optic modulator on silicon-on-insulator substrates using cavities with ultra-small modal volumes," Opt. Express 15, 3140-3148 (2007)

 

J1. Q. Xu, S. Manipatruni, B. Schmidt, J. Shakya, and M. Lipson, " 12.5 Gbit/s carrier-injection-based silicon micro-ring silicon modulators," Opt. Express 15, 430-436 (2007)

______________________________________________________________________________________

 

Refereed Conference Articles (2016 & 17 Limited due to personal and corporate travel constraints):

 

C52. (Invited Talk) S. Manipatruni, D. Nikonov, I.A. Young, Materials for Magneto-electric spin logic, Gordon Research Conference, 2017

 

C51. (Invited Talk) I.A. Young, S. Manipatruni, D. Nikonov, Magneto-electric spin logic, Frontiers in Magnetism, 2017

 

C50. (Invited Talk) Patil, Ameya, Naresh Shanbhag, Lav Varshney, Eric Pop, H-S. Philip Wong, Subhasish Mitra, Jan Rabaey et al. "A systems approach to computing in beyond CMOS fabrics." In Design Automation Conference (DAC), 2017 54th ACM/EDAC/IEEE, pp. 1-2. IEEE, 2017.

 

C49. Iraei, Rouhollah Mousavi, Sourav Dutta, Sasikanth Manipatruni, Dmitri E. Nikonov, Ian A. Young, John T. Heron, and Azad Naeemi. "A proposal for a magnetostriction-assisted all-spin logic device." In Device Research Conference (DRC), 2017 75th Annual, pp. 1-2. IEEE, 2017.

 

C48. Mousavi Iraei, Rouhollah, Dmitri Nikonov, Ian Young, Sasikanth Manipatruni, and Azad Naeemi. "Thermally Reliable Magnetostriction-Assisted All-Spin Domino-Logic Device." Bulletin of the American Physical Society (2018).

 

C47. Dutta, Sourav, Dmitri Nikonov, George Bourianoff, Sasikanth Manipatruni, Ian Young, and Azad Naeemi. "Skyrmion nucleation via localized spin current injection in confined nanowire geometry in low chirality magnetic materials." Bulletin of the American Physical Society (2018).

 

C46. (Invited Talk) Materials for Magneto-electric spin logic, Gordon Research Conference, 2016

C45. (Invited Talk) Magneto-electric spin orbit logic, I.A Young, S. Manipatruni, D. Nikonov, CSPIN workshop on topological materials.

 

C44. Manipatruni, S., Nikonov, D.E. and Young, I.A., Spin-Orbit Logic with Magnetoelectric Nodes, MMM 2016
 

C43 . A. Patel, Manipatruni, S., Nikonov, D.E., Young, I.A., N. Shanbhag, Shannon inspired stochastic computing, MMM 2016

 

C42. Chang, S.C., Manipatruni, S., Nikonov, D.E., Young, I.A. and Naeemi, A., Scaling Limits on All-spin Logic, MMM 2016

 

C41. Spin torque majority gate devices: towards 300mm wafer integration w/ IMEC, MMM 2016

 

C40. A. Patel, Manipatruni, S., Nikonov, D.E., Young, I.A., N. Shanbhag, Support Vector Machine Via Spin Channel Networks, submitted to ISCAS

 

C39. Dutta, S., Nikonov, D.E., Manipatruni, S., Young, I.A. and Naeemi, A., Overcoming thermal noise in non-volatile spin wave logic, APS Physics meeting.

 

C38. Naeemi, A., Chang, S.C., Dutta, S., Pan, C., Manipatruni, S., Nikonov, D. and Young, I., 2016, May. Spin-based interconnect technology and design. In Interconnect Technology Conference/Advanced Metallization Conference (IITC/AMC), 2016 IEEE International (pp. 1-64). IEEE.

 

C37. S. Manipatruni, D. Nikonov, I.A. Young, “Retention error rate in embedded MRAM: Mitigation techniques”, MMM 2014

 

C36. S. Manipatruni, D. Nikonov, I.A. Young, “Coupled Spin hall Oscillators”, MMM 2014

 

C35. Iraei, R.M.; Bonhomme, P.; Kani, N.; Manipatruni, S.; Nikonov, D.E.; Young, I.A.; Naeemi, A., "Impact of dimensional scaling and size effects on beyond CMOS All-Spin Logic interconnects," Interconnect Technology Conference / Advanced Metallization Conference (IITC/AMC), 2014 IEEE International , vol., no., pp.353,356, 20-23 May 2014

 

C34. D. Nikonov, S. Manipatruni, I.A. Young, "Simulation and Benchmarking of Spintronic Memory and Logic" 13th Non-volatile Memory Technology Symposium (NVMTS) 2013

 

C33. D. Nikonov, S. Manipatruni, I.A. Young, “Switching efficiency improvement in spin torque majority gates”, 58th Annual Magnetism and Magnetic Materials (MMM), 2013 (GT-09)

 

C32. S. Manipatruni, D. Nikonov, I.A. Young, Vector Spin Circuit Modeling of MTJ based Spin Transfer Devices, 58th Annual Magnetism and Magnetic Materials (MMM), 2013 (CD-08)

 

C31. (Post-dead line talk) Dutt, A., Luke, K., Manipatruni, S., Nussenzveig, P. A., Gaeta, A. L., & Lipson, M. (2013, June). Demonstration of Squeezing on chip. In CLEO: QELS_Fundamental Science. Optical Society of America.

 

C30. (Invited talk) Kuhn, K. J., Avci, U., Cappellani, A., Giles, M. D., Haverty, M., Kim, S. Manipatruni & Young, I. The Ultimate CMOS Device and Beyond, IEDM 2012

 

C29. (Post-deadline talk) M. Zhang, G. Wiederhecker, S. Manipatruni, A. Barnard, P. McEuen, and M. Lipson, “Synchronization of Micromechanical Oscillators using Light”, IEEE Photonics 2011 (formerly LEOS annual meeting)

 

C28. M. Lipson, G. Wiederhecker, S. Manipatruni, and S. Lee, "Tunable Optomechanical Cavities," in Nonlinear Optics: Materials, Fundamentals and Applications, OSA Technical Digest (CD) (Optical Society of America, 2011), paper NTuF7.

 

C27. Padmaraju, K.; Ophir, N.; Qianfan Xu; Schmidt, B.; Shakya, J.; Manipatruni, S.; Lipson, M.; Bergman, K.; , "Error-free transmission of DPSK at 5 Gb/s using a silicon microring modulator," Optical Communication (ECOC), 2011 37th European Conference and Exhibition on , vol., no., pp.1-3, 18-22 Sept. 2011

 

C26. K. Padmaraju, N. Ophir, S. Manipatruni, C. Poitras, M. Lipson, and K. Bergman, "DPSK Modulation Using a Microring Modulator," in CLEO:2011 - Laser Applications to Photonic Applications, OSA Technical Digest (CD) (Optical Society of America, 2011), paper CTuN4.

C25. S. Manipatruni, G. Weiderhecker, and M. Lipson, "Long-range synchronization of optomechanical structures," in Quantum Electronics and Laser Science Conference, OSA Technical Digest (CD) (Optical Society of America, 2011), paper QWI1.

C24. S. Manipatruni*, A. Biberman*, N. Ophir, K. Bergman, L. Chen, M. Lipson, “First Experimental Bit-Error-Rate Validation of 12.5-Gb/s Silicon Modulator Enabling Photonic Networks-on-Chip”, OMI1, OFC 2010 (* Co-First Authors)

C23. S. Manipatruni*, Biberman*, N. Ophir, K. Bergman, L. Chen, M. Lipson, “First Demonstration of 80-km Long-Haul Transmission of 12.5-Gb/s Data Using Silicon Microring Resonator Electro-Optic Modulator”,  JWA28, OFC 2010

C22. G. Wiederhecker, S. Manipatruni, S. Lee and M. Lipson, “Giant Displacement of Microphotonic Structures Using Optical Forces” QTuD6, Quantum Electronics and Laser Science Conference (QELS), 2010

C21. J. Cardenas, S. Manipatruni, N. Sherwood-Droz, C. B. Poitras, B. Zhang, J.B. Khurgin, P. A. Morton, and M. Lipson, “ Large Tunable Delay of 140 GHz Bandwidth an RF Photonics Signal with 140 GHz  Bandwidth Using Silicon Microresonators”, CWG3, Conference on Lasers and Electro-Optics (CLEO), 2010 

 

C20. S. Manipatruni, L. Chen, K. Preston and M. Lipson, “ Ultra Low Power Silicon Microring Modulators : Towards Driver Less Silicon Modulation”, CThJ6, Conference on Lasers and Electro-Optics (CLEO), 2010 

C19. (Invited Talk) S. Manipatruni, and M. Lipson, “Silicon Photonics: The Optical Spice Rack”, Photonics in Switching, 2009 Pisa        
 
C18.  S. Manipatruni, L. Chen and M. Lipson, “50 Gbit/s WDM modulation capacity on Silicon” Group 4 Photonics 2009 (FC 3)           

C17. H. L. R. Lira, S. Manipatruni, and M. Lipson, “Broadband Hitless Silicon Electro-optic Switch for Optical Networks On-Chip” Group 4 Photonics 2009 (FC 6)

 C16. K. Preston, L. Chen, S. Manipatruni, and M. Lipson, “Silicon Photonic Interconnect with Micrometer-Scale Devices ” Group 4 Photonics 2009 (WA 2)        

C15. S. Manipatruni, J.T. Robinson, M. Lipson, “Optical Non-reciprocity in optomechanical devices”, CLEO 2009 (CThB3)

C14. S. Manipatruni, C. B. Poitras, M. Lipson, “Electro-optically Tunable Delay on a Silicon Chip”, CLEO 2009 (CThBB4) 

 

C14. K. Preston, S. Manipatruni, C. B. Poitras, M. Lipson, “4 GHz modulation in deposited CMOS polysilicon”, CLEO 2009 (CTuBB1)  

 

C13. (Postdeadline) K. Preston, S. Manipatruni, C. B. Poitras, M. Lipson, “GHz modulation in deposited CMOS polysilicon”, FiO 2008

 

C12. (Best Paper Award) S. Manipatruni, A. Biberman, B. Lee, B. Schmidt, K. Bergman, and M. Lipson, "3X10 Gbit/s Wavelength Division Multiplexing using Silicon Microring Modulators " Photonics, 2008

 

C11. S. Manipatruni, R.K. Dokania, B. Schmidt, J. Shakya, A. B. Apsel and M. Lipson, "Wide Temperature Range Operation of  Resonant Silicon Electro-optic Modulator" Integrated Photonics and Nanophotonics Research and Applications (IPNRA), 2008 (IME5)

 

C10. S. Manipatruni, P. Dong, Q.Xu and M. Lipson, " Superluminal Pulse Propagation on a Silicon Chip " Slow and Fast Light (SL), 2008 (SWA4)

 

C9.  (Key Note Address) M. Lipson, K. Preston, S. Manipatruni, C. Poitras, “Photonics on a  Silicon Chip”, The Sixth International Conference on Nanochannels, Microchannels and Minichannels (ASME ICNMM’08), Darmstadt, Germany.  Paper 62383

 

C8. B. Schmidt, S. Manipatruni, A. Yang, D. Erickson, M. Lipson, “Optical Trapping Platform based on Highly Confining Silicon Waveguiding Structures with Microfluidics ”, Conference on Lasers and Electro-Optics (CLEO), San Jose,  2008 (CThQ3)

 

C7. S. Manipatruni, C. B. Poitras,  Q.Xu and M. Lipson, "Ultra Fast Electro-Optic Tuning of Optical Quality Factor" Conference on Lasers and Electro-Optics (CLEO), San Jose,  2008 (CTuJ2)

 

C6. (Upgraded to Invited Talk) S. Manipatruni, P. Dong,  Q.Xu and M. Lipson, "Tunable Superluminal Pulse Propagation on a Silicon Chip " Conference on Lasers and Electro-Optics (CLEO) , San Jose,  2008 (CTuT1) Link

 

C5. S. Manipatruni, C. Poitras, Q. Xu, and M. Lipson, "Electro-Optically  Tunable On-Chip Optical Transparency"  in Proceedings of IEEE Conference on Lasers and Electro-Optics, Lake Buena Vista , 2007.  paper WO3 Link

 

C4. S. Manipatruni, Q. Xu, B. Schmidt, J. Shakya, and M. Lipson, "High-Speed Carrier Injection 18 Gb/s Silicon Micro-Ring Electro-Optic Modulator"  in Proceedings of IEEE Conference on Lasers and Electro-Optics, Lake Buena Vista, 2007.  paper WO2 Link

 

C3. S. Manipatruni, Q. Xu, and Michal Lipson, "Breaking the Tradeoff between Speed and Extinction Ratio in Silicon Electro-optic Modulators"  Conference on Lasers and Electro-Optics (CLEO), Baltimore, 2007. Link

C2. Q. Xu, S. Manipatruni, B. Schmidt, J. Shakya, and M. Lipson, " 12.5 Gbit/s carrier-injection-based silicon micro-ring silicon modulators," Conference on Lasers and Electro-Optics (CLEO) , Baltimore, 2007. Link

 

C1. Po Dong, Stefan F. Preble, Jacob T. Robinson, S. Manipatruni, and Michal Lipson, “Inducing Photonic Transitions between Discrete Modes in a Microcavity ”, Conference on Lasers and Electro-Optics (CLEO) , Baltimore, 2007.  link

© 2019 Sasikanth Manipatruni

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