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  Quantum Nanostructures and Nanofabrication Group | Prof. Karl K. Berggren  
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Student unloads a wafer from electron-beam-lithography tool Student inspects a sample in an optical microscope Student works on a custom circuit board for an evolvable hardware project Students take atomic-force-micrograph of a photodetector in MIT's nanostructures laboratory
 
 
The next frontier of electronic and photonic devices lies in nanoscience and nanotechnology research. At the nanoscale, quantum effects start to appear. Our research is focused on nanofabrication of nanometer-length-scale devices that exploit quantum-mechanics and then on application of these devices to the real world to make, for example, superconducting nanowire NbN single-photon counters and detectors, and quantum computing qubit devices. Because superconductors provide an ideal medium for studying and exploiting the capabilities of quantum mechanics in the solid state, we focus on these materials.
 
 
       
 
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Current Research Projects
Nanolithography
At most research institutions nanolithography is currently accomplished using electron-beam lithography..

Single-Photon Detectors
This effort focuses on developing superconductive nanowire single-photon detectors...

Deep-Immersion Lithography
Currently optical lithography used to pattern microchips in the semiconductor electronics industry is running up against...

More Research Projects

 
       
 
 
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