Lecture

Quantum and nanocomputing

Related lectures (38)

Quantum Metrology: Fundamentals and Applications

Explores quantum metrology fundamentals, applications, and technologies like quantum ghost imaging, computing, and key distribution.

Noise in Electronic Devices

Explores thermal noise in MOS Transistors, input noise of bipolar transistors, and noise in amplifier stages, mirrors, differential pairs, and opamps.

Quantum Parametric Amplifiers

Explores quantum parametric amplifiers and their role in improving quantum measurement accuracy and speed.

Low-Noise Amplifiers: Design Considerations

Explores the design considerations for low-noise amplifiers, covering noise figure, gain, input matching, and impedance stability.

Quantum and Nanocomputing

Explores quantum and nanocomputing fundamentals, LTspice simulation, universal op amp models, voltage sources, transient analysis, AC behavior, and FFT analysis.

CMOS Building Blocks

Explores CMOS building blocks, impedance, operational amplifiers, and noise issues in electrochemical cells.

Video Digitization: ADC Selection and Signal Processing

Explores ADC selection, resolution, conversion rates, SNR, and amplifier frequency response in video digitization.

Piezoresistive Sensors: Strain Gauges

Explores strain gauges for piezoresistive sensors, covering wire resistance, gauge geometries, thermal coefficients, and amplifier noise.

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