Advancing electronics and photonics through interdisciplinary research.

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Presentation transcript:

advancing electronics and photonics through interdisciplinary research

Advanced Technology Institute The Advanced Technology Institute at Surrey is shaping tomorrow’s technology with a unique blend of applied research inspired by theory, carried out by research teams with broad multidisciplinary research expertise in electronics, physics, material science, chemistry and biology. Addressing the grand challenges in information technology, renewable energy, and health-care technology 3 decades of leading research with significant impact on ICT industries (e.g. rapid thermal annealing, SIMOX, strained layer lasers) Major current activities in nanotechnology, photonics, ion beams and advanced theory & computation Spin outs since 2002: Polarmetrix (Fibre-optic vibration sensors for security applications), SI-LIGHT (Si-based light emitters), QFT (Field emission displays based on laser crystallisation of amorphous silicon), Surrey Nano Systems (Carbon nanotube growth systems )

Theory and TAC Advanced Computation Research Groups

Photonics Activities Silicon Photonics III-V Semiconductor Light Emitters Femtosecond Dynamics Light emission from silicon Passive silicon photonics Pioneering work in strained layer lasers UV (GaN) to near-IR to mid-IR (InSbN) Resonant cavity LEDs and VCSELs fs dynamics of photonic devices nonlinear optics in carbon nanotubes spintronics

EPSRC National Facility for ion implantation Ion beam centre State-of-the-art tandem accelerator Latest developments: Nanobeam: proton beam for analysis and nanolithography (funded) Vertical ion beam for biological applications (funded) New proton microbeam lithothography capability External microbeam for analysis of archaeological, biological and cosmological samples

Suspension bridge for carbon nanotubes in quantum metrology device Resonant tunnelling in a carbon quantum well Nano- Electronics Nano-fabrication: Growth and manipulation of carbon nanotubes: Nano- bioelectronics: Carbon-based electronics: DNA –wrapped nanotubes for biosensors

Theory and Advanced Computation Calculated optical modes in a photonic crystal Optical modes in microdisk laser Strain maps in a quantum dot A bio-electronic network of configurable molecular interconnects Bio- electronics and biophotonics Quantum dots Nanostructured lasers Photonic crystals