Education
I am an experimental physicist working on Integral Imaging of Acoustically Trapped Objects. I have also worked on the Diffractive acoustic element design and the applications in acoustic wavefront engineering as a BSc project and Water desalination by Carbon Nano Tube (CNT) as a side scientific student project. I have a work experience as an electronic technician and scientific assistant in a company that produces types of equipment for laboratories. I am enthusiastic about doing experimental research and seeking creative ideas to develop and spread science. That’s why I would like to carry on my research in an interdisciplinary environment working on challenging experimental projects in the fields of Multi dimensional Imaging and Microscopies.
Acoustic Trapping Device - III
72 ultrasound transducer
40kHz
multi-trapped object
trapped liquids
non-invasive move particle
Acoustic Trapping Device - II
8 ultrasound transducer
40kHz
multi-trapped object
Acoustic Trapping Device - I
24 ultrasound transducer
40kHz
single trapped object
acoustic trapping devices to suit optical setup.
HOME-LAB (during COVID-19 locked on)
3D Integral Imaging and Reconstruction
Three-dimensional (3D) imaging and microscopies provide valuable details in structural and phenomenological investigations in various fields of science, such as dynamic behavior of living matter in biology, physical properties of samples in physics and morphometric information associated with the influences of chemicals existence or concentration level on surfaces.
Acoustic Trapping Device - Prototype
2 ultrasound transducer
single particle
HOME-LAB (during COVID-19 locked on)
For more information, Please contact me.
Diffractive Acoustic Element Design and the Applications in Acoustic Wavefront Engineering
Diffractive optical elements have been considered for many years due to their usefulness in various application such as optical manipulation. It seems possible to incorporate similar elements to engineer acoustical wavefronts. In this research we use diffractive elements fabricated by acoustical wave sensitive materials to desirably modify the intensity of incident acoustic wave. We used radial diffractive acoustical plates and measured the variations in an amplified wave’s intensity along the propagation axis as well as the lateral changes.These elements can be used for several applications including gas mixing and indirect light particle displacement.
FZF* Mini Incubator
* Forouzan Zist Fanavaran is a spin off company of the MDID group located at IASBS Techno Park (www.fzf-co.ir).
Side Scientific Projects
FZF* Digital Holographic Microscope
* Forouzan Zist Fanavaran is a spin off company of the MDID group located at IASBS Techno Park (www.fzf-co.ir).
Water Desalination by Carbon Nano Tube (CNT)
Teaching Experience
©2022 Copyright by Kooshan Mohsenvand
Last Update: June 28, 2022