Your search keyword '"van Honschoten, Joost W."' showing total 2 results

1. Optimization of a thermal flow sensor for acoustic particle velocity measurements

Author

van Honschoten, Joost W., Svetovoy, Vitaly B., Krijnen, Gijs J.M., and Elwenspoek, Miko C.

Subjects

Engineering and manufacturing industries, Science and technology

Abstract

In this paper, a thermal flow sensor consisting of two or three heated wires, the Microflown, is treated for application to acoustic measurements. It is sensitive to flow ('particle velocity'), contrary to conventional microphones that measure acoustic pressures. A numerical analysis, allowing for detailed parametric studies, is presented. The results are experimentally verified. Consequently, improved devices were fabricated, and also sensors with a new geometry consisting of three wires, instead of the usual two, of which the central wire is relatively most heated. These devices are the best performing Microflowns to date with a frequency range extending from 0 to over 5 kHz and a minimum detectable particle velocity level of about 70 nm/s at 2 to 5 kHz (i.e., 3 dB PVL or SPL, corresponding to a pressure of 3.1 * [10.sup.-5] Pa at a free field specific acoustic impedance). [1383]

Published

2005

2. Long range diffusion noise in platinum microwires with metallic adhesion layers

Author

Moktadir, Zakaria, van Honschoten, Joost W., and Elwenspoek, Miko

Abstract

Voltage fluctuations of platinum wires hosted by silicon nitride beams were investigated. The authors considered four variants of the wires: three with an adhesion layer and one without an adhesion layer. They found that the presence of an adhesion layer changes the nature of the power spectrum which is 1/f for wires with no adhesion layers and 1/f3/2 for wires with an adhesion layer. They attribute the value of the exponent α = 3/2 found in wires with adhesion layers to the long range diffusion of oxygen atoms along the interface between the adhesion layer and the platinum layer.

Published

2007