Web Analytics

 

Adrian worked from 2018 to 2023 where he developed 3D imaging techniques. He mainly worked on Volumetric LIF on a water jet, Fringe Projection - LIF for 3D reconstuction of a hollow cone liquid sheet and stereoscopic particle tracking velocimetry to track respiratory droplets exhaled when people are speaking, coughing, etc.

 

He graduated his Ph.D. thesis on the 20th of October 2023, titled:

"High-speed 3D imaging of liquid jets, surfaces and respiratory droplets"

Tugba's worked as a post-doc from 2019 to 2022 and her work was related to tissue clearing, which is an approach allowing rendering brain, embryo and other highly scattering tissues semi-transparent. Thanks to this technology, light can penetrate trough the otherwise optically dense tissue samples allowing the visualization of neurone structures. Tugba works together with David Frantz who is developing a novel microscope device for 3D imaging of large tissue samples. Her post-doc project was based on a cooperation between the "Spray & imaging" group at the Department of  Physics and the "BRAINS" unit headed by Prof. Deniz Kirik at the Department of Experimental Medical Science, Lund University.

Joakim worked from 2015 to 2021 with his thesis where he developed an online freely accessible software called Multi-Scattering for the computational modeling of light propagation in scattering and absorbing media.

 

The thesis was titled "MultiĀ­-Scattering: Computational light transport in turbid media"

Yogeshwar worked from October 2012 to February 2017 on developing and applying advanced laser diagnostics based on SLIPI in order to study the spray region of atomizing spray systems. Yogeshwar has demonstrated how SLIPI can be used to obtain improved accuracy for thermometry and droplet sizing.

 

He graduated his Ph.D. thesis on the 16th of February 2018, titled:

"Droplet size, concentration, and temperature mapping in sprays using SLIPI-based techniques"

Karolina worked from 2015 to October 2020 on the FRAME project during her PhD. Specifically, Karolina focused on developing a multispectral imaging device that uses the FRAME technology to acquire all the spectral images in a "snapshot" manner.

 

 

 

 

   Spray &

   Imaging

   Group

Spray Diagnostics   &   Advanced Imaging