Millikelvin scanned probe for measurement of nanostructures
Publication
, Journal Article
Brown, KR; Sun, L; Kane, BE
Published in: Review of Scientific Instruments
We demonstrate a scanning force microscope, based upon a quartz tuning fork, that operates below 100 mK and in magnetic fields up to 6 T. The microscope has a conducting tip for electrical probing of nanostructures of interest, and it incorporates a low noise cryogenic amplifier to measure both the vibrations of the tuning fork and the electrical signals from the nanostructures. At millikelvin temperatures, the imaging resolution is below 1 μm in a 22 μm×22 μm range, and a coarse motion provides translations of a few mm. This scanned probe is useful for high bandwidth measurement of many high impedance nanostructures on a single sample. We show data locating a single electron transistor within an array and measure its Coulomb blockade with a sensitivity of 2.6×10−5 e/Hz.
