Cantilever anemometer based on a superconducting micro-resonator: Application to superfluid turbulence
Abstract
We present a new type of cryogenic local velocity probe that operates in liquid helium (1 K < T < 4.2 K) and achieves a spatial resolution of ≈ 0.1 mm. The operating principle is based on the deflection of a micro-machined silicon cantilever which reflects the local fluid velocity. Deflection is probed using a superconducting niobium micro-resonator sputtered on the sensor and used as a strain gauge. We present the working principle and the design of the probe, as well as calibration measurements and velocity spectra obtained in a turbulent helium flow above and below the superfluid transition.
- Publication:
-
Review of Scientific Instruments
- Pub Date:
- December 2012
- DOI:
- 10.1063/1.4770119
- Bibcode:
- 2012RScI...83l5002S
- Keywords:
-
- anemometers;
- anemometry;
- flow sensors;
- liquid helium;
- microcavities;
- micromechanical resonators;
- microsensors;
- niobium;
- sputtering;
- superconducting materials;
- superfluidity;
- turbulence;
- 47.80.Cb;
- 47.80.Fg;
- 06.30.Gv;
- 07.10.Cm;
- 85.85.+j;
- 47.27.-i;
- Velocity measurements;
- Pressure and temperature measurements;
- Velocity acceleration and rotation;
- Micromechanical devices and systems;
- Micro- and nano-electromechanical systems and devices;
- Turbulent flows