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Researcher Details
 
Name: Professor GAD Briggs
Organisation: University of Oxford
Department: Materials
Current EPSRC-Supported Research Topics:
Magnetism/Magnetic Phenomena Materials Characterisation
Materials Synthesis & Growth Quantum Optics & Information

Current EPSRC Support
EP/R029229/1 From Nanoscale Structure to Nanoscale Function (NS2NF)(P)
Previous EPSRC Support
EP/N014995/1 Quantum Technology Capital: An extensible simulation and test platform for quantum and quantum enabled technologies(P)
EP/N017188/1 Quantum Effects in Electronic Nanodevices (QuEEN)(P)
EP/J015067/1 Molecular quantum devices(P)
EP/H001972/1 Putting spin into carbon nanoelectronics(P)
EP/F028806/1 NSF: Templated Ordered Endohedral Fullerenes as Building Blocks for Quantum Computing(P)
EP/F048009/1 Platform Grant Support for Materials Characterisation at Oxford(C)
EP/F024525/1 Diamond microstructures for quantum information technologies(C)
EP/D074398/1 Resubmission of IMPRESS: Intra-Molecular Propagation of Electron Spin States(P)
EP/D048761/1 Supramolecular self-assembly of 1-10nm templates for biofunctional surfaces, quantum information processing and nanoelectronics(C)
GR/S82176/01 Interdisciplinary Research Collaboration in Quantum Information Processing(P)
GR/S23421/01 Basic Technologies: Cryogenic instrumentation for quantum electronics(P)
GR/S15808/01 Quantum Information Processing IRC, Director(P)
GR/R80919/01 Use of Electric Fields for Controlled Patterning of Thin Polymer Films(C)
GR/R66029/01 Nanoelectronics at the quantum edge(P)
GR/N31887/01 ANTI-CORROSIVE PAINTS: STUDIES BY SCANNING ACOUSTIC MICROSCOPY AND SCANNING KELVIN PROBE(C)
GR/N23967/01 ROPA: NANOTUBE QUANTUM LOGIC GATE: PUMP-PRIMING PROOF- OF-PRINCIPLE(P)
GR/M61023/01 (JIF) INDUSTRIAL MATERIALS AND MANUFACTURING(C)
GR/M54032/01 GROWTH AND CHARACTERISATION OF QUANTUM SILICIDE AND NITRIDE ISLANDS(P)
GR/L02234/01 ULTRASONIC FORCE MICROSCOPE - IMAGING AND MEASURING NANOSCALE MECHANICAL PROPERTIES(P)
GR/L27633/01 QUANTITATIVE NDT OF SURFACE DAMAGE IN GLASS AND CERAMICS(C)
GR/K82451/01 QUANTITATIVE NDT OF SURFACE DAMAGE IN GLASS CERAMICS.(C)
GR/K08161/01 LOCAL ADSORPTION AND DYNAMICS AT SURFACES: VARIABLE TEMPERATURE STM(P)
GR/K48532/01 ADHESIVE/ADHEREND INTERLAYER PROPERTY MEASUREMENT BY ACOUSTIC MICROSCOPY(P)
GR/J37416/01 TIME-RESOLVED ACOUSTIC MICROSCOPY OF SHORT FATIGUE CRACKS(P)
GR/J08485/01 CHARACTERISATION OF SURFACE ROUGHNESS AND SUB-SURFACE DAMAGE(P)
GR/J02339/01 APPLICATION OF MAGNETOACOUSTIC EMISSION TO THE MONITORING OF STRESS(C)
GR/H59305/01 ADHESIVE/ADHEREND INTERLAYER PROPERTY MEASUREMENT BY ACOUSTIC MICROSCOPY-FEASIBILITY STUDY(P)
GR/H34012/01 TUNNELING MICROSCOPY OF ORGANIC ADSORBATES ON SEMICONDUCTORS(P)
GR/E67825/01 MEASUREMENT OF INTERNAL STRESS BY MAGNETOACOUSTIC EMISSION(P)
GR/E76391/01 ACOUSTIC MICROSCOPY OF SHORT FATIGUE CRACKS SERC/CEGB CO FUNDING(P)
GR/E93398/01 THE APPLICATIONS OF SCANNING TUNNELLING MICROSCOPY IN THE STUDY OF ORDERED ADSORBATE LAYERS(P)
GR/E60185/01 SCANNING TUNNELING MICROSCOPY OF SEMICONDUCTOR MATERIALS(P)
GR/E10883/01 HIGH RESOLUTION SCANNING ACOUSTIC MICROSCOPY STUDIES OF DENTAL CARIES(P)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator