Physics:
P09: Radhakrishnan Balu: Subfactors from graphs induced by association schemes, Accepted, International Journal of Theoretical Physics (2023).
P08. Shivani Singh, Radhakrishnan Balu, Raymond Laflamme, and C. M. Chandrasheka: Accelerated quantum walk, two-particle entanglement generation and localization, J. Phys. Comm., Vol 3, 5, (2019).
P07. Radhakrishnan Balu, Daniel Castillo, and George Siopsis: Physical realization of topological quantum walks on IBM-Q and beyond, Quant. Sci. tech., Vol 3, No 3 (2018).
P6. N. Pradeep Kumar, Radhakrishna Balu, Raymond Laflamme, C. M. Chandrashekar : Bounds on the dynamics and entanglement in a periodic quantum walks, Phys. Rev. A, (2018).
P05. Kurt Jacobs, Radhakrishnan Balu, and John D. Teufel: Quantum-enhanced accelerometry with a nonlinear electromechanical circuit, Phys. Rev. A, 96. 023858 (2017).
P04. Santra, Siddhartha; Cruikshank, Benjamin; Balu, Radhakrishnan; Jacobs, Kurt: Fermi's golden rule, the origin and breakdown of Markovian master equations, and the relationship between oscillator baths and the random matrix model, J. Phys A (Mathematical and Theoretical) (2017).
P03. Kurt Jacobs, Nikolas Tezak, Hideo Mabuchi, and Radhakrishnan Balu: All-mechanical quantum noise cancellation for accelerometry: broadband with momentum measurements, narrow band without, J. Optics 18 034002 (2016).
P02. Radhakrishnan Balu, Xiaoliang Zhong , Ravindra Pandey, and Shashi P. Karna, “ Effect of Electric Field on the Band Structure of Graphene/BN and BN/BN Bilayers”, Appl. Phys. Lett., 100, 052104 (2012).
P01. William Mattson and Radhakrishnan Balu “Shocked-induced behavior of cubic gauche polymeric nitrogen”, Phys. Rev. B, 83, 174105 (2011).