Education
PhD in Physics Sciences
Competence fields
Optical Metrology
Digital Holography
Image Processing
Software developments
Representative publications
- H. Machrafi, C. Minetti, P.C. Dauby, C.S. Iorio, “Self-assembly by multi-drop evaporation of carbon-nanotube droplets on a polycarbonate substrate”, Physica E 52, 206-213 (2017).
- C. Minetti, V. Vitkova, F. Dubois & I. Bivas, “Digital holographic miscroscopy as a tool to study the thermal shape fluctuations of lipid vesicles”, Optics Letters, 41(8), 1833-1836 (2016).
- Minetti C., Podgorski T., Coupier G., and Dubois F., “Fully automated digital holographic processing for monitoring the dynamics of a vesicle suspension under shear flow.”, Biomedical Optics Express 5, pp. 1554-1568 (2014).
- C. Minetti, C. Buffone, “Three-dimensional Marangoni cell in self-induced evaporating cooling unveiled by digital holographic microscopy”, PHYSICAL REVIEW E 89, 013007, (2014).
- X. Grandchamp, G. Coupier, A. Srivastav, C. Minetti, and T. Podgorski, "Lift and Down-Gradient Shear-Induced Diffusion in Red Blood Cell Suspensions", Phys. Rev. Lett. 110, 108101 (2013).
- A. El Mallahi, C. Minetti and F. Dubois, “Automated three-dimensional detection and classification of living organisms using digital holographic microscopy with partial spatial coherent source – Application to the monitoring of drinking-water resources”, Appl. Opt.52, A68-A80 (2013).
- G. Coupier, A. Farutin, C. Minetti, T. Podgorski and C. Misbah, "Shape Diagram of Vesicles in Poiseuille Flow", Phys. Rev. Lett. 108, 178106 (2012).
- T.Podgorski, N. Callens, C. Minetti, G. Coupier, F. Dubois and C. Misbah, "Dynamics of vesicle suspension in shear flow between walls", Microgravity Sci. Technol. 23:263-270 (2011).
- N. Callens, C. Minetti, G. Coupier, M.-A. Mader, F. Dubois, C. Misbah and T. Podgorski, “Hydrodynamic lift of vesicles under shear flow in microgravity”, Euro Physics Letters 83 (2008).
- C. Minetti, N. Callens, G. Coupier, T. Podgorski, F. Dubois, “Fast measurement of concentration profiles inside deformable objects in micro flows with reduced spatial coherence digital holography” Applied Optics, 47 (2008).