Add to ORKGJournal ArticleShear force microscopy is very useful for distance regulation in near-field scanning optical microscopy (NSOM). However, the optical method used to detect the shear force can cause problems when imaging photosensitive materials, i.e., the shear force detection beam can optically pump the sample. We present here a new approach to shear force detection based upon capacitance sensing. The design, operation, and performance of the capacitance detection are presented. Shear force topographic images of hard and soft surfaces are shown using tungsten and NSOM fiber tips. The closed loop vertical sensitivity achieved is 0.01 nm//Hz
We report on the first successful operation of a scanning force microscope using microfabricated cap...
We have developed a novel technique of sample-tip distance regulation by using ultrasonic resonance ...
The recently introduced Shear-force Near-field Acoustic Microscopy (SANM) brings a new sensing mecha...
Scanning-near field optical microscopy requires a distance control mechanism. In most cases, it is b...
Scanning-near field optical microscopy requires a distance control mechanism. In most cases, it is b...
Scanning-near field optical microscopy requires a distance control mechanism. In most cases, it is b...
Scanning-near field optical microscopy requires a distance control mechanism. In most cases, it is b...
A simple, compact, and inexpensive method for shear force distance regulation is presented. A single...
Journal ArticleA near-field capacitance microscope has been demonstrated on a 25 nm scale. A resonan...
A crucial part of the Scanning Near-Field Microscope (SNOM) is the distance regulation that keeps th...
An easy-to-implement non-optical shear-force detection setup for tip–sample distance regulation in s...
An easy-to-implement non-optical shear-force detection setup for tip–sample distance regulation in s...
Abstract—We have introduced a home-made scanning near-field optical microscope (SNOM) with bimorph-b...
In view of the rapid growth of interest in AFM technique in surface property investigation and local...
This dissertation investigates mechanisms that influence image formation in near-field scanning opti...
We report on the first successful operation of a scanning force microscope using microfabricated cap...
We have developed a novel technique of sample-tip distance regulation by using ultrasonic resonance ...
The recently introduced Shear-force Near-field Acoustic Microscopy (SANM) brings a new sensing mecha...
Scanning-near field optical microscopy requires a distance control mechanism. In most cases, it is b...
Scanning-near field optical microscopy requires a distance control mechanism. In most cases, it is b...
Scanning-near field optical microscopy requires a distance control mechanism. In most cases, it is b...
Scanning-near field optical microscopy requires a distance control mechanism. In most cases, it is b...
A simple, compact, and inexpensive method for shear force distance regulation is presented. A single...
Journal ArticleA near-field capacitance microscope has been demonstrated on a 25 nm scale. A resonan...
A crucial part of the Scanning Near-Field Microscope (SNOM) is the distance regulation that keeps th...
An easy-to-implement non-optical shear-force detection setup for tip–sample distance regulation in s...
An easy-to-implement non-optical shear-force detection setup for tip–sample distance regulation in s...
Abstract—We have introduced a home-made scanning near-field optical microscope (SNOM) with bimorph-b...
In view of the rapid growth of interest in AFM technique in surface property investigation and local...
This dissertation investigates mechanisms that influence image formation in near-field scanning opti...
We report on the first successful operation of a scanning force microscope using microfabricated cap...
We have developed a novel technique of sample-tip distance regulation by using ultrasonic resonance ...
The recently introduced Shear-force Near-field Acoustic Microscopy (SANM) brings a new sensing mecha...