The New IMP(F) - F4 unified. Nanoscale Science and Technology
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1 IMP(F) - Nanoscale Science and Technology The New IMP(F) - F4 unified International Master s Programme in Nanoscale Science and Technology 2002/2003 Göran Wendin, MINA/MC2
2 What sizes are we talking about? A hair s breadth [m] 1 Å 1 nm 10 nm 100 nm 1 µm 10 µm 0.1 mm 1 mm Mikroteknologi F1, Göran Wendin (2002)
3 A perspective on time and development Moore s law 0.1GHz 0.1Gb 1GHz 1Gb Moore s law: Semiconductor electronics hits the wall? Biomolecular electronics? Quantum devices? Quantum computing? Integrated circuits Apple PC Internet 2010 Increasing integration and complexity Arthur Clarke 2001 Start of Nanotech Nanoscale transistor Software development New architectures Genetic programming Evolutionary systems Complex systems Intelligent machines? Biotechnology, Medicine FMI010 Mikroteknologi F1, Göran Wendin (2002)
4 Mikroteknologi - Verklighet och Visioner How will science revolutionize the 21st Century?? Computer Revolution? Biomolecular Revolution? Quantum Revolution? Semiconductor electronics Microprocessors Quantum computers Nanomechanics Molecular electronics Bioelectronics Neuroinformatics Brains Artificial(?) intelligence Robotics Computer science Biotechnology Medicine Quantum physics Where are we 2020? 2050? 2100? FMI010 Mikroteknologi F1, Göran Wendin (2002))
5 IMP(F) - Compulsory courses (21p) Quarters 1&2 Nanoscale Science (4p) Nanoscale Technology (4p) Nano/bioscience Seminar (2p) Quarters 3&4 Modelling and Fabrication of Micro/nanodevices (5p) Nano/bioscience and Information Processing (4p) Nano/bioscience Seminar (2p)
6 IMP(F) - Elective programmes 1. Nanoscale Device Physics and System Technology 2. Nano/bioscience and Information Processing 3. Nanoscience and Quantum Engineering Fast track to PhD in Physics Current IMP(F)
7 FMI010 Mikroteknologi F1, Göran Wendin (2002)
8 Nano/biotechnology for cell-chip communication interfaces [m] 1 Å 1 nm 10 nm 100 nm 1 µm 10 µm 0.1 mm 1 mm Mikroteknologi F1, Göran Wendin (2002)
9 IMP(F) - Elective courses (19p) 1. Nanoscale Devices and System Technology Quarters 1&2 Transport Processes in Physics and Biology (3p) Low Temperature Physics (3p) Liquid Crystals (3p) Computational Project (2p) (compulsory for IMP(F)) Quarters 3&4 Supercond Devices and Systems (3p) Quantum Information (3p) Sensitive Electronic measurements (3p) Mesoscopic Physics (3p) 17. Semiconductor Physics and Technlogy
10 Toward 2015: non-cmos candidates for computer components and systems Si - FPGA, cellular networks,... Bioinspired architectures Evolvable software! Evolvable hardware? Self-organization?? Quantum computing Single electronics Molecular transistors Carbon nanotube transistor, memory drain source gate Mikroteknologi F1, Göran Wendin (2002)
11 IMP(F) - Elective courses (19p) 2. Nano/bioscience and Information Processing Quarters 1&2 Quarters 3&4 Transport Processes in Physics and Biology (3p) Elective courses from 14. Biotechnical Physics 19. Complex Adaptive Systems IMP(F)_CAS Elective courses from 14. Biotechnical Physics 19. Complex Adaptive Systems IMP(F)_CAS
12 Nano/biotechnology for cell-chip communication interfaces Göran Wendin Microelectronics and Nanoscience, Physics, Chalmers/GU biomems Massively parallel Brain- chip interface Artifical synapses Mikroteknologi F1, Göran Wendin (2002)
13 IMP(F) - Elective courses (19p) 3. Quantum Physics and Engineering Quarters 1&2 Quantum Mechancics (5p) Statistical Physics (5p) Elective courses from other Physics programmes Quarters 3&4 Condensed Matter Physics (5p) Computational Physics (5p) Elective courses from other Physics programmes
14 From Y. Yamamoto, Varenna, July 2001 FMI010 Mikroteknologi F1, Göran Wendin (2002))
15 Quantum computing with Josephson Junctions Flux qubit TU-Delft B 1> Charge-flux qubit CEA-Saclay I I 3 µm 0> Qubit: superposition Ψ = a 0> +b 1> I I U FMI010 Mikroteknologi F1, Göran Wendin (2002)
16 Nanoscale Science and Technology Then What? IMP(F) Nano S&T R&D in industry PhD The IMP(F) program is equally suitable for research, development, and technical management in industry, or academic research and training for a PhD. Around half of the IMP(F) students have gone on to PhD studies here at Chalmers, at the Physics and Electrical Engineering departments.
17 Nanoscale Science and Technology Programme director: Göran Wendin Programme coordinator: Margaretha Lövgren Home page:
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CRYOGENIC DRAM BASED MEMORY SYSTEM FOR SCALABLE QUANTUM COMPUTERS: A FEASIBILITY STUDY MEMSYS-2017 SWAMIT TANNU DOUG CARMEAN MOINUDDIN QURESHI Why Quantum Computers? 2 Molecule and Material Simulations
Nanoscience, MCC026 2nd quarter, fall Quantum Transport, Lecture 1/2. Tomas Löfwander Applied Quantum Physics Lab
Nanoscience, MCC026 2nd quarter, fall 2012 Quantum Transport, Lecture 1/2 Tomas Löfwander Applied Quantum Physics Lab Quantum Transport Nanoscience: Quantum transport: control and making of useful things
FOCUS NANOSCIENCE AND NANOTECHNOLOGY SERIES. Silicon Carbide One-dimensional Nanostructures. Laurence Latu-Romain Maelig Ollivier
FOCUS NANOSCIENCE AND NANOTECHNOLOGY SERIES Silicon Carbide One-dimensional Nanostructures Laurence Latu-Romain Maelig Ollivier Silicon Carbide One-dimensional Nanostructures FOCUS SERIES Series Editor