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Hamza Muddasir. Arm, the Cambridge-based microchip designer, is a British tech success story. ... Leaps in microchip designs is one of the main ways it competes in its industry.

At Cambridge, he co-founded Owlstone Nanotech, marketing a programmable microchip sensor with applications ranging from toxic gas detection to disease diagnostics and deployed globally in the defence, oil, food, water

SureFlap Microchip Cat Flap. Among the three winners was five-year-old Isabel Saffron Booth from King’s Ely school, who suggested the sound recognition system could be used to tell ... Other technologies on show included Rubik’s cube-solving robots

Reading lists for new students.

The FET is the basis of all modern microchips and a modern computer has several million FETs processing the information. ... Using polymer FETs, flexible microchips can be produced at very low cost so it has big advantages in high volume applications.

White light, ranging from 490nm to 1.7µm, produced by a microchip laser and nonlinear photonic crystal fibre was focused onto the nanostructured samples by a 300mm focal length lens, producing

Phys Rev B 85(23):235303.29. Naidoo D, et al. (2011) Transverse mode selection in a monolithic microchip laser.

All devils are permanently and individually identifiedwith microchip transponders (Allflex NZ Ltd, Palmerstone North,New Zealand).

excited by an unpolarised super-continuum light source (emitted by a holey fiber pumped with 1064nm Nd-YAG microchip laser pulses) focused to a 500μm spot.

microchip-image-featured.jpg 365 360 To make a research discovery appealing to industry, scientists must learn the difference between its features and it potential benefits.