Difference between revisions of "Optics + Ultrasound II"

From Applied Optics Wiki
Jump to: navigation, search
(Optics and Ultrasound II)
(Optics and Ultrasound II)
Line 17: Line 17:
  
 
Suggested topics include but are not limited to: medical imaging / non destructive testing / generation / detection / photoacoustic imaging / ultrasound modulated optical tomography / novel contrast agents e.g. nanoparticles, microbubbles / optical detection of ultrasound / reconstruction algorithms / modelling of light sound interaction / elastography / thin films / structure materials / phononics / tranducers and sensors
 
Suggested topics include but are not limited to: medical imaging / non destructive testing / generation / detection / photoacoustic imaging / ultrasound modulated optical tomography / novel contrast agents e.g. nanoparticles, microbubbles / optical detection of ultrasound / reconstruction algorithms / modelling of light sound interaction / elastography / thin films / structure materials / phononics / tranducers and sensors
 +
 +
[[O+UII abstracts]]
 +
  
 
Steve Morgan
 
Steve Morgan
 
Matt Clark
 
Matt Clark

Revision as of 13:02, 24 May 2014

Optics and Ultrasound II

Sponsors: Optical and Physical Acoustics Groups, Institute of Physics 21 May 2014 Faculty of Engineering, University of Nottingham, Nottingham.

O+UII.png

Combining optics and ultrasound leads to many powerful techniques for probing and manipulating matter with applications from medical imaging through the non destructive testing of engineering materials to fundamental materials physics on the nanoscale. Following a highly successful meeting sponsored by the Institute of Physics in 2013 we are pleased to announce Optics+Ultrasound II. This will cover all aspects of combining light and sound.

This meeting will include a special session on ultra high frequency and nanoscale ultrasound.

Suggested topics include but are not limited to: medical imaging / non destructive testing / generation / detection / photoacoustic imaging / ultrasound modulated optical tomography / novel contrast agents e.g. nanoparticles, microbubbles / optical detection of ultrasound / reconstruction algorithms / modelling of light sound interaction / elastography / thin films / structure materials / phononics / tranducers and sensors

O+UII abstracts


Steve Morgan Matt Clark