References
- L. Fedichkin , A. Fedorov , and V. Privman , Additivity of decoherence measures for multiqubit quantum systems , Phys. Lett. A 328 (2004), pp. 87–93.
- V. Privman , Initial decoherence of open quantum systems , J. Stat. Phys. 110 (2003), pp. 957–970.
- V. Privman , Control of noise in chemical and biochemical information processing , Israel J. Chem. 51 (2011), pp. 118–131.
- V. Privman , Theoretical modeling expressions for networked enzymatic signal processing steps as logic gates optimized by filtering , Int. J. Parallel Emergent Distrib. Syst. , in this issue, 10.1080/17445760.2016.1140167 (2016)
- V. Privman , I.D. Vagner , and G. Kventsel , Quantum computation in quantum-hall systems , Phys. Lett. A 239 (1998), pp. 141–146.
- V. Privman , D. Mozyrsky , and I.D. Vagner , Quantum computing with spin qubits in semiconductor structures , Computer Phys. Commun. 146 (2002), pp. 331–338.
- V. Privman , G. Strack , D. Solenov , M. Pita , and E. Katz , Optimization of enzymatic biochemical logic for noise reduction and scalability: How many biocomputing gates can be interconnected in a circuit? J. Phys. Chem. B 112 (2008), pp. 11777–11784.
- V. Privman , S. Domanskyi , S. Mailloux , Y. Holade , and E. Katz , Kinetic model for a threshold filter in an enzymatic system for bioanalytical and biocomputing applications , J. Phys. Chem. B 118 (2014), pp. 12435–12443.
- S. Saikin , Y.V. Pershin , and V. Privman , Modeling for semiconductor spintronics , IEEE Proc. Circuits Devices Syst. 152 (2005), pp. 366–376.
- M. Shen , S. Saikin , M.-C. Cheng , and V. Privman , Monte Carlo simulation of spin-polarized transport , Lect. Notes Comput. Sci. 2668-II (2003), pp. 881–891.