Refereed publications:

T. Cheng, C. Rangan, and J.E. Sipe, 2013, Metallic nanoparticles on waveguide structures: Effects on waveguide mode properties, and the promise of sensing applications, Journal of the Optical Society of America B, v. 30, pp. 743–765. [pdf]

A.M. Bloch, R.W. Brockett, and C. Rangan, 2010, Finite Controllability of InfiniteDimensional Quantum Systems, IEEE Transactions on Automatic Control, v. 55, pp.17971805. [pdf]

S.M. Hashemi Rafsanjani, T. Cheng, S. Mittler, C. Rangan, 2010, “A novel measure of refractive index sensitivity in nanoplasmonic biosensors”, Journal of Applied Physics, v. 107, art. no. 094303. [pdf]

Invited brief review: C. Rangan, 2009, “The trappedion qubit: Coherent control in infinitedimensional quantum systems”, Modern Physics Letters A, vol. 24, pp. 25652578. [pdf]

S. Durocher, A. Rezaee, Bulent Mutus, Silvia Mittler, C. Rangan, 2008, “A goldnanoparticle based reagent for sizing small molecular weight thiols”, Journal of the American Chemical Society, v. 131, pp. 24752477. [pdf]

Patrick Rooney, Songbo Xu, Asad Rezaee, Touraj Manifar, Abdollah Hassanzadeh,â€¨Ganna Podoprygorina, Volker Boehmer, Chitra Rangan, and Silvia Mittler, 2008, "Control of surface plasmon resonances in dielectricallycoated proximate gold nanoparticles immobilized on a substrate", Physical Review B, v. 77, art. no. 235446. [pdf]

L.H. Pedersen, C. Rangan, 2007, “Controllability and universal threequbit quantum computation with trappedelectron quantum states”, Quantum Information Processing, v. 7, pp. 3342. [pdf]

Songbo Xu, Ganna Podoprygorina, Volker Böhmer, Ziheng Ding, Patrick Rooney, C. Rangan and Silvia Mittler, 2007, "Tetraurea calix[4]arenes with Sulfur Functions: Synthesis, Dimerization to Capsules and SelfAssembly on Gold", Organic and Biomolecular Chemistry, v. 5, pp. 558–568. [pdf]

R. Cabrera, C. Rangan, and W.E. Baylis, 2007, “Sufficient condition for the control of nqubit systems”, Physical Review A, v. 76, art. no. 33401. [pdf]

J. M. Murray, S.N. Pisharody, H. Wen, C. Rangan, P.H. Bucksbaum, 2006, “Information hiding and retrieval in Rydberg wave packets using halfcycle pulses”, Physical Review A, v. 74, art. no. 43402. [pdf]

C. Rangan and R.J.A. Murray, 2005, “Theory of detection of angular momentum states in Rydberg atoms using halfcycle pulses”, Physical Review A, v. 72, art. no. 053409. [pdf]

C. Rangan and A.M. Bloch, 2005, “Control of finitedimensional quantum systems: application to a spinhalf particle coupled with a finite quantum harmonic oscillator”, Journal of Mathematical Physics, v. 46, art. no. 32106. [pdf]

C. Rangan, A.M. Bloch, C.R. Monroe, and P.H. Bucksbaum. “Control of trappedion quantum states with optical pulses”, Physical Review Letters, v. 92, art. no.113004 (2004). [pdf]

H. Wen, C. Rangan, and P.H. Bucksbaum. “Control of angular momentum evolution in Stark wave packets”, Physical Review A v. 68, art. no. 53405 (2003). [pdf]

John P. Boyd, C. Rangan and P.H. Bucksbaum. “Pseudospectral methods on a semiinfinite interval with application to the hydrogen atom: a comparison of the mapped Fouriersine method with Laguerre series and Rational Chebyshev expansions”, Journal of Computational Physics, 188, 56 (2003). [pdf]

C. Rangan, J. Ahn, D.N. Hutchinson and P.H. Bucksbaum. “Control of Rydberg atoms for performing Grover’s search algorithm”, Journal of Modern Optics, 49, 2339 (2002). [pdf]

J. Ahn, C. Rangan, D.N. Hutchinson and P.H. Bucksbaum. “Quantum state information retrieval in a Rydberg atom data register”, Physical Review A 66, 22312 (2002). [pdf]

C. Rangan and P.H. Bucksbaum. “Optimally shaped terahertz pulses for a quantum algorithm on a Rydberg atom data register”, Physical Review A 64, 33417 (2001). [pdf]

A.R.P. Rau and C. Rangan. Reply to ‘Comment on “Photodetachment in combined static and dynamic electric fields” ’, Physical Review A 64, 37402 (2001). [pdf]

J. Ahn, C. Rangan, D.N. Hutchinson, and P.H. Bucksbaum. “Quantum phase retrieval of a Rydberg wave packet using a halfcycle pulse”, Physical Review Letters 86, 1179 (2001). [pdf]

C. Rangan, K.J. Schafer and A.R.P. Rau. “Dynamics of diamagnetic Zeeman states ionized by halfcycle pulses”, Physical Review A 61, 53410 (2000). [pdf]

C. Rangan and A.R.P. Rau. “Photodetachment in combined static and dynamic electric fields”, Physical Review A 61, 33405 (2000). [pdf]
Conference proceedings:

"The Controllability of Infinite Quantum Systems" by Roger W. Brockett, C. Rangan and Anthony M. Bloch, The 42nd IEEE Conference on Decision and Control, December 2003 (invited paper). [pdf]

"Effect of thirdorder nonlinearity on squeezed solitons in optical fibers" by C. Rangan, M.V. Satyanarayana, B.M. Sivaram, Physics and Simulation of Optoelectronic Devices II (SPIE Proceedings Vol. 2146), Eds. Weng W. Chow and Marek A. Osinski, p. 448456, SPIE, Washington, 1994. http://www.spie.org/web/abstracts/2100/2146.html
Book chapter:

Book chapter: D.A. Travo, R. Huang, T. Cheng, C. Rangan and E. Ertorter, S. Mittler, 2013, “Experimental and Theoretical Issues of Nanoplasmonics in Medicine”, Applications of Electrochemistry in Medicine, Ed. Mordechay Schlesinger, Modern Aspects of Electrochemistry v.56, pp. 343379, Springer, New York. [pdf]

Book chapter: C. Rangan, 2009, “Symmetry considerations in the modeling of nanoscale lightmatter interactions”, Modeling and Numerical Simulations II, Ed. Mordechay Schlesinger, Modern Aspects of Electrochemistry, v. 44, pp.113130, Springer, New York. [pdf]

"The propagation of squeezed solitons in optical fibers  third order dispersion effects", C. Rangan, M.V. Satyanarayana and B.M. Sivaram, in Perspectives in theoretical nuclear physics, p. 234241, WileyEastern Ltd., New Delhi, 1994.
Invited talks (not updated):

"Optical properties of gold nanoparticles on surfaces: applications to biosensing", AMO seminar, Physics Department, University of Michigan, Ann Arbor, MI. October 2007.

"Nanoplasmonics and its applications in biomedicine", Colloquium, Physics Department, Miami University, Oxford, OH. October 2007.

“Coherent Control of Infinitedimensional Quantum Systems”, DAMOP 07, Annual Meeting of the Division of Atomic, Molecular and Optical Physics, American Physical Society, Calgary, AB. June 2007.

“Controllability and information processing in infinitedimensional quantum systems”, PRACQSYS 2006: The Principles and Applications of Control in Quantum Systems, Harvard University, Cambridge, MA. August 2006.

“64496: A multigenre, collaborative course on technical communication for physicists”, Engaging the 21st Century student: regional conference on teaching and learning, University of Windsor. April 2006.

“Quantum Information Processing and Terahertz Control in Rydberg Atoms”, Seminar, Physics Department, University of Waterloo, Waterloo, ON. November 2005.

“Introduction to quantum computing”, Tutorial Lecture, School of Computer Science, University of Windsor. October 2005.

“Quantum computing with atoms”, Colloquium, Department of Physics, University of Western Ontario, London, ON. October 2005.

“Quantum information processing in atomic systems”, Department of Physics, Indian Institute of Technology, Chennai, India. September 2005.

"Coherent control and quantum information processing in atomic systems", 2005 Gordon Conference on Quantum Control of Light and Matter, Colby College, Waterville, ME, August 2005.

“Coherent control and quantum information processing with Rydberg atoms”, 2005 Congress of the Canadian Association of Physicists, University of British Columbia, Vancouver, BC, June 2005.

“Coherent control and quantum information processing with Rydberg atoms and trapped ions”, Workshop on Building Computational Devices using Coherent Control, The University of Michigan, Ann Arbor, MI, June 2004.

“Quantum Computing”, Physics Education Workshop, University of Windsor, Windsor, ON, April 2004.

“On our way to the emerald city: quantum computing”, Department of Physics, Colby College, Waterville, ME, October 2003.

“Quantum Information Processing: computing with atoms using light”, Department of Physics, University of Windsor, Windsor, ON, Canada, October 2003.

“Terahertz control of Rydberg atoms: applications to quantum information processing”, Chemistry Department, Massachusetts Institute of Technology, Cambridge, MA, July 2003.

“Quantum control and quantum information processing”, AMO seminar, Institute for Theoretical Atomic, Molecular and Optical Physics, HarvardSmithsonian Center for Astrophysics, Cambridge, MA, January 2003.

“Quantum information and quantum computing”, Research seminar, College of Engineering and Computer Science, The University of MichiganDearborn, Dearborn, MI, January 2003.

“Quantum control and quantum information processing”, Seminar, Center for Ultrafast Optical Sciences, University of Michigan, Ann Arbor, MI, November 2002.

“Quantum search algorithm in a Rydberg atom”, Colloquium, Department of Physics, Oakland University, Rochester, MI, October 2002.

“Quantum search with Rydberg atoms”, Colloquium, Department of Physics, Western Michigan University, Kalamazoo, MI, September 2002.

"Performing Grover's search algorithm on a Rydberg atom data register", XXXII Winter Colloquium on the Physics of Quantum Electronics, Snowbird, UT, January 2002.

"Optimal control of Rydberg Atoms", AMO seminar, Department of Physics, University of Michigan, Ann Arbor, October 2001.

"Phase retrieval on a Rydberg atom data register through optimally shaped terahertz pulses", 3rd Annual Cross Border Workshop on Laser Science, University of Toronto, Canada, May 2001.

"Performing a quantum algorithm on a Rydberg atom through optimally shaped terahertz pulses", Institute of Mathematical Sciences, Chennai, India, April 2001.

"Rydberg atoms in strong magnetic fields: Probing them with terahertz halfcycle pulses", Department of Physics, Indian Institute of Technology (Madras), Chennai, India, April 2001.
Doctoral dissertation:
"Ionization of Diamagnetic Zeeman States by HalfCycle Pulses", May 2000.
Department of Physics and Astronomy, Louisiana State University, LA 70803.
Advisors: Ravi Rau and Ken Schafer
Master's thesis: "Propagation of Squeezed Solitons in Optical Fibers", July 1993.
Department of Physics, Indian Institute of Technology, Madras, India.
Advisors: M.V. Satyanarayana and B.M. Sivaram