Richard S. Muller (Advisor)

Integrated Silicon Electromechanical Vapor Sensor

Roger T. Howe
Richard S. Muller
Richard M. White
1984
An integrated vapor sensor is described which is fabricated ona silicon substrateusing conventional NMOS processing steps. It consists of a poly-El mcro- bridge, underlying electrodes for electrostatic excitation and capacitive...

Roger T. Howe

Former BSAC Co-Director
Electrical Engineering and Computer Sciences
Berkeley Sensor & Actuator Center (BSAC)
Professor Richard S. Muller (Advisor)
Ph.D. 1984

Roger T. Howe is the William E. Ayer Professor in the Department of Electrical Engineering at Stanford University, as well as the Acting Faculty Director of the Stanford Nanofabrication Facility. He earned a B.S. degree in physics from Harvey Mudd College, Claremont, California and an M.S. and Ph.D. in electrical engineering from the...

Dennis L. Polla

Alumni
Electrical Engineering and Computer Sciences
Professor Richard S. Muller (Advisor)
Ph.D. 1985

Pyroelectric ZnO Integrated Sensors

Dennis L. Polla
Richard S. Muller
Richard M. White
1985

Oriented zinc-oxide layers have been combined with NMOS planar technology and silicon micromachining to produce integrated sensors empolying the pyroelectric effect in thin deposited films. Several fully integrated sensors have been designed and fabricated to detect differential temperatures as small as 18uK (and up to 2K) that arise in response to physical or chemical variables being sensed. The following fully-integrated pyroelectric sensors have been designed, fabricated, and tested: infrared detector array, gas-flow sensor, and chemical-reaction sensor. These sensors have been...

IC-Processed Polysilicon Micromechanics: Technology, Material, and Devices

Yu-Chong Tai
Richard S. Muller
Roger T. Howe
1989
Movable pin joints, gears, springs, cranks, and slider structures with dimensions measured in micrometers have been fabricated using silicon microfabrication technology. These micromechanical structures, which have important transducer applications, are batch-...

Micromachined Resonant Electrometer

Patrick Riehl
Richard S. Muller
Roger T. Howe
1999

Numerous analytical instruments require a sensor to detect small quantities of electric charge. The techniques of scanning tunneling microscopy and ballistic electron emission microscopy require tiny currents to be sensed, on the order of a few picoamperes. In a mass spectrometer, the analysis of a sample requires a measurement of the current resulting from ions passing through a mass filter. In a technique known as chargedetection mass spectrometry, used to measure the mass of large molecules such as DNA molecules or virus particles, the resolution of the mass determination is limited in...

Microsystems for Electrostatic Sensing

Patrick Riehl
Richard S. Muller
2002

We have developed highly sensitive electrometers and electrostatic fieldmeters (EFMs) that make use of micromechanical variable capacitors. Our systems operate using the same basic principle as a chopper-stabilized amplifier or vibrating-reed electrometer. We use micromechanical resonators with specialized electrodes that implement variable capacitors. Modulating the input capacitance of the sensor generates an ac sense voltage proportional to the input charge or field that is detected using a lock-in amplifier. If the motional frequency is sufficiently high, 1/f noise does not...

Thermal and Electrostatic Microactuators

Robert Conant
Richard S. Muller
2000

This dissertation discusses the fundamental limits of scanning mirror design, focusing on the limitations due to the interaction between mechanical properties
(mirror flatness and dynamic deformation), and optical properties (beam divergence and optical resolution). The performance criteria for both resonant scanning mirrors and steady-state, beampositioning mirrors are related to the mirror geometries, desired optical resolution, material properties, and mechanical resonant frequencies. The optical resolution of the scanning mirror is linearly dependent on the mirror length, so longer...

Micromirror Arrays for Adaptive Optics

Michael Helmbrecht
Richard S. Muller
2002

Deformable mirrors (DM) shape the wavefront of an optical beam in adaptive-optics (AO) systems. The ability to manipulate wavefront phase quickly allows for real-time correction of aberrated wavefronts. We investigate the design of a micromachined, segmented, highstroke deformable-mirror array for AO.

To achieve large mirror stroke, polysilicon-nickel bimorph flexures are designed to quiescently elevate surface-micromachined mirror platforms roughly 20 µm above underlying electrodes as a result of tuned residual stresses in the bimorph materials. We control stress in the...

Micromachined Mirrors

Robert Conant
Richard S. Muller
Kristofer S. J. Pister
Liwei Lin
2002

This dissertation discusses the fundamental limits of scanning mirror design, focusing on the limitations due to the interaction between mechanical properties (mirror flatness and dynamic deformation), and optical properties (beam divergence and optical resolution). The performance criteria for both resonant-scanning mirrors and steady-state, beam-positioning mirrors are related to the mirror geometries, desired optical resolution, material properties, and mechanical resonant frequencies. The optical resolution of the scanning mirror is linearly dependent on the mirror length, so longer...