Not exact matches
In a
combined experimental and theoretical study on ultrafast excitation
of atoms in intense short pulse
laser fields scientists
of the Max Born Institute succeeded to show that the prevailing and seemingly disparate intuitive pictures usually
used to describe interaction
of atoms with intense
laser fields can be ascribed to a single nonlinear process.
The method
combines two high - tech laboratory techniques and allows the researchers to precisely poke holes on the surface
of a single cell with a high - powered «femtosecond»
laser and then gently tug a piece
of DNA through it
using «optical tweezers,» which draw on the electromagnetic field
of another
laser.
As part
of this initiative, the CAMERA team
combined efforts with Ruslan Kurta, a physicist at the European XFEL (X-ray free electron
laser) facility in Germany, to analyze angular correlations from the experimental data and
use CAMERA's multi-tiered iterative phasing (M - TIP) algorithm to perform the first successful 3D virus reconstructions from experimental correlations.
By
combining the
use of magnetic tweezers with in vivo
laser ablation, we locally control physiologically relevant deformations in wild - type Drosophila embryonic tissues.
These opportunities include the
use of short - pulsed X-ray sources for extracting time - dependent structural information from proteins; and the revolutionary new possibilities created by X-ray Free Electron
Lasers, which
combine ultrafast X-ray pulses with high brilliance focussing capabilities to create an entirely new regime
of pre-damage time - resolved serial femtosecond crystallography on unprecedented time - scales.
Experimental approach: To
use patient - specific induce pluripotent cell models from a (i) storage disease (NCL), (ii) aggregate prone disease (ALS) and (iii) a disease with no aggregates but hyperexcitability (ChAc)
combined with state
of the art live cell imaging techniques, electrophysiology and biophysical tools (PIV,
laser ablation for cortex tension measurements, AFM).
Liberal application
of industrial strength adhesives, the
use of dual - seal lip joints as well as large diameter and
laser welding techniques
combine to make the 2016 model the most robust Sorento ever.
TWB assemblies
combine steels
of different thickness and grades
using a sophisticated
laser welding and stamping process to achieve an optimal stiffness - to - weight ratio.
His paintings often involve a long and complex technical process,
combining traditional painting techniques with the
use of laser cut stencils that are produced
using digital image processing.