Interdisciplinary Applied Mathematics

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Veijola, T. (1999). Equivalent circuit models for micromechanical inertial sensors. Technical report, Helsinki University of Technology, Circuit Theory Laboratory, CT-39.

Ve ijola, T. (2000). Compact damping models for lateral structures including gas rarefaction effects. In Proceedings of MSM 2000, pages 162-165, San Diego.

Ve ijola, T. (2001). Acoustic impedence elements modeling oscillating gas flow in micro channels. In Modeling and Simulation of Microsystems, pages 96-99.

Ve ijola, T., Kuisma, H., and Lahdenpera, J. (1998). The influence of gas-surface on gas film damping in a silicon accelerometer. Sens. Actuators, A, 66:83-92.

Ve ijola, T., Kuisma, H., Lahdenpera, J., and Ryhanen, T. (1995a). Equivalent-circuit model of the squeezed gas film in a silicon accelerometer. Sens. Actuators, A, 48:239-248.

Ve ijola, T., Ryhanen, T., Kuisma, H., and Lahdenpera, J. (1995b). Circuit simulation model gas damping in microstructures with nontrivial geometries. In Proceedings of Transducers’95 & Eurosensors IX, Stockholm, Sweden, June 25-29, pages 36-39.

Veijola, T. and Turowski, M. (2001). Compact damping models for laterally moving microstructures with gas-rarefaction effects. J. Microelectromech. Sys., 10:263-273.

Velev, O. D., Prevo, B. G., and Bhatt, K. H. (2003). On-chip manipulation of free droplets. Nature, 426:515-516.

Vergeles, M., Keblinski, P., Koplik, J., and Banavar, J. R. (1996). Stokes drag and lubrication flows: A molecular dynamics study. Phys. Rev. E, 53(5):4852-4864.

Verheijen, H. J. and Prins, M. W. (1999). Reversible electrowetting and trapping of charge: model and experiments. Langmuir, 15:6616-6620.

Vijayakumar, P., Sun, Q., and Boyd, I. D. (1999). Vibrational-translational energy exchange models for the direct simulation Monte Carlo method. Phys. Fluids, 11 (8):2117-2126.

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