Ultrasound imaging needle to transform heart surgery
Heart tissue can be imaged in real-time during keyhole procedures using a new optical ultrasound needle developed by researchers at UCL and Queen Mary University of London (QMUL).
Heart tissue can be imaged in real-time during keyhole procedures using a new optical ultrasound needle developed by researchers at UCL and Queen Mary University of London (QMUL).
Optics & Photonics
Dec 1, 2017
0
499
Bacteria are able to attach themselves to tissue fibres with the aid of a 'nano-adhesive'. Just how they achieve this was investigated a few years ago by Viola Vogel, Professor of Applied Mechanobiology at ETH Zurich, using ...
Nanophysics
Nov 28, 2017
0
16
Scientists have taken an important step towards using 'twisted' light as a form of wireless, high-capacity data transmission which could make fibre-optics obsolete.
Optics & Photonics
Oct 26, 2017
0
396
A large international collaboration has used a specialised technique on the infrared microspectroscopy (IRM) beamline at the Australian Synchrotron to determine the structure of proteins in individual silk fibres that has ...
Materials Science
Sep 20, 2017
0
143
New insights into how animals spin silk could lead to new, greener ways of producing synthetic fibres, according to academics at the University of Sheffield.
Materials Science
Sep 20, 2017
0
90
Small angle neutron scattering (SANS) at the Australian Centre for Neutron Scattering has confirmed that the strength of a type of supramolecular hydrogel can be increased by heating.
Materials Science
Apr 13, 2017
0
278
Research led by ANU on the use of magnets to steer light has opened the door to new communications systems which could be smaller, cheaper and more agile than fibre optics.
Optics & Photonics
Feb 16, 2017
0
33
Researchers have coated normal fabric with an electroactive material, and in this way given it the ability to actuate in the same way as muscle fibres. The technology opens new opportunities to design "textile muscles" that ...
Engineering
Jan 25, 2017
1
585
Researchers at FOM institute AMOLF and the University of Texas at Austin have created a compact one-way street for light. That is remarkable because light waves can generally move in both directions inside a material. Optical ...
Optics & Photonics
Nov 29, 2016
2
753
In the past few years, optical atomic clocks have made spectacular progress, becoming 100 times more precise than the best caesium clocks. So far, their precision has been available only locally, since frequency transfer ...
General Physics
Aug 9, 2016
2
42