Ioan Sturzu, PhD

 

 

Selected Publications

 

1.      M.Khatun, T.Barclay, I.Sturzu and P.D.Tougaw, Fault tolerance properties in Quantum-dot CellularAutomata devices – Journal of Physics D: Applied Physics 39, 1489-1494 (2006).

2.      M.Khatun, T.Barclay, I.Sturzu and P.D.Tougaw, Fault Tolerance Calculations for Clocked Quantum-dot Cellular Automata Devices – Journal of Applied Physics 98, 094904 (2005).

3.      I.Sturzu and M.Khatun, Quantum Calculation of Thermal Effect in Quantum-dot Cellular AutomataComplexity 10, 4, pp. 73-78 (2005).

4.      I.Sturzu, L.Kanuchok, M.Khatun and D.Tougaw,  Thermal Effect in Quantum-dot Cellular Automata - Physica E: Low Dimensional Systems and Nanostructures, 27, 1-2, pp.188-197 (2005).

5.      I.Sturzu - Topics on the stochastic treatment of the evolution of an open quantum systemRomanian Journal of Physics 47, 553-560 (2002).

6.      I.Sturzu - Explicit Euler method for solving the time-dependent Schrödinger equation - Phys. Rev. A 64, 054101 (2001).

7.      N.Cretu, G.Nita, I.Sturzu, C.Rosca - A semianalytic method for study the acoustic pulse propagation in elastic inhomogeneous 1-D media - Integral Methods in Science and Engineering 1998, pp.107-112, Chapman&Hall 1999, Pitman Research Notes in Mathematics Series, ISBN 1-58488-146-1

8.      N.Cretu, P.P.Delsanto, G.Nita, C.Rosca, M.Scalerandi and I.Sturzu -Ultrasonic pulse propagation in inhomogeneous one-dimensional media - J.Acoust.Soc.Am.104, 1, pp.57-63 (1998).

9.      M.Scalerandi, N.Cretu, S.T.Chiriacescu, I.Sturzu, C.Rosca - A Method for Simulation of Gaussian Pulse Propagation in an Elastic Medium with Periodical Inhomogeneity -Computational Acoustics and its Environmental Applications, Computational Mechanics Publications, Southamton-Boston, II,1997, pp.161-168, ISBN:1-85312-459-1

 

Selected Presentations

 

1.      I.Sturzu, T.Barclay and M.Khatun - Numerical Simulations for Quantum-dot Cellular Automata Devices, 2005 Joint Spring Meeting Ohio Section of APS and the Southern Ohio Section of AAPT,

April 8–9, 2005; Dayton, OH.

2.      T.Barclay, I.Sturzu and M.Khatun, Quantum Method for Fault Tolerance Calculations in Quantum-dot Cellular Automata Clocked Devices, Bulletin of the American Physical Society, 50,  page 1404, March Meeting, Los Angeles, March 21-25, 2005.

3.      M.Khatun, T.Barclay and I.Sturzu, Defect Tolerance Properties Calculations for Quantum-dot Cellular Automata using inter-cellular Hartree Approximation, Bulletin of the American Physical Society, 50,  page 14054, March Meeting, Los Angeles, March 21-25, 2005.

4.      M.Khatun, I.Sturzu, L.Kanuchok and D.Tougaw, Fault Tolerance Calculations for Quantum-dot Cellular Automata devices, Bulletin of the American Physical Society, 50,  page 1001, March Meeting, Los Angeles, March 21-25, 2005.

5.      I.Sturzu and M.Khatun, Approximation methods in the study of temperature effect in Quantum-dot Cellular Automata and comparison with full-basis quantum calculation, Indiana Academy of Science Fall Meeting, Hanover College, October 28-29, 2004.

6.      T.Barclay, M.Hendrichsen, I.Sturzu and M.Khatun, Defect Tolerance Calculations for Quantum-dot Cellular Automata, Indiana Academy of Science Fall Meeting, Hanover College, October 28-29, 2004.

7.      I.Sturzu, M.Khatun and M.Hendrichsen, Quantum Calculation of the Thermal Effect in Quantum-dot Cellular Automata - Understanding Complex Systems Symposium: Networks, University of Illinois at Urbana-Champaign, May 17-20, 2004.

8.      I.Sturzu and M.Khatun, Quantum calculation of the QCA response function for non-zero temperatures - Bulletin of the American Society of Ohio Section Spring Meeting, Ohio University, Athens, Ohio, April 16-17, 2004.

9.      M.Khatun, I.Sturzu, L.Kanuchok and D.Tougaw, Statistical Study of Thermal Effect in Quantum-dot Cellular Automata - Bulletin of the American Physical Society, 49,  page 978, March Meeting, Montreal, Canada, March 23-26, 2004.

10.  L.Kanuchok, I.Sturzu and M.Khatun, Thermal Effect in Quantum-Dot Cellular Automata - Indiana Academy of Science, 119th Annual Meeting, October 16-17, 2003.

11.  I.Sturzu, L.Kanuchok, M.Khatun, and D.Tougaw,  Quantum Statistical Calculations for Thermal Effect in Quantum-Dot Cellular Automata - Ohio American Physical Society Meeting, Cleveland, OH, October 17-18, 2003.

12.  I.Sturzu, S.V. Rotkin, "Quantum mechanical study of nanotube devices", NSF Colloquium: "Communication and Integration in Nanomaterials", September 30 – October 2, 2002, Transylvania University, Romania.

 

Selected preprints

 

1.      I.Sturzu, Taylor expansion for an operator function - math-ph/0408059

2.      I.Sturzu, Determination of quantum instrument parameters for a Stern-Gerlach non-ideal device - quant-ph/0205167

3.      I.Sturzu, State transformations after quantum fuzzy measurements - quant-ph/0204110

 

Invited Seminars

 

1.      Analytical method for studying Single-Wall Carbon Nanotubes Electronic Band Structure – Department of Physics and Astronomy, Ball State University, September 2, 2004

2.      Tunneling current for Single-Wall Carbon Nanotubes using rigorous TBA method, Department of Medical Physics, Rush Medical Center, Chicago, May 27, 2003

3.      TBA method applied for the study of tunneling current for Single-Wall Carbon Nanotubes, Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana-Champaign, June 5, 2003