Herzan Helps Researchers Remove Environmental Noise from Their Measurements Through its Acoustic, Vibration, and EMI Isolation Solutions.
Acoustic, Vibration, and EMI Isolation
Active Vibration Cancellation
Achieve Max Resolution With An Active Vibration Cancellation System
For over 25 years, Herzan has been helping researchers achieve more from their research by removing disruptive vibration noise from affecting their instrument. Vibration noise can cause distortions to occur in imaging, making understanding data collected less precise.
Herzan active vibration cancellation systems help attenuate noise found in imaging, whereby maximizing the quality of data collected for a wide range of instruments and applications.
Atomic Force Microscope Supported By A TS Series Table
“Simply put, our experiments would not be possible without the equipment from Herzan. It allows us to do even single-molecule experiments on the second floor of a shaky building!” – Professor Volkmar Heinrich, UC Davis
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Herzan has partnered with customers around the world to share their experiences highlighting how they were able to eliminate troublesome environmental noise and maximize the utility of their instrumentation by partnering with Herzan to define a solution.
Bio Applications + TS Series
The Heinrich Lab built a custom force probe to investigate the adhesive properties and other mechanical characteristics of biomolecules to further their cutting-edge bioengineering research. They soon found that environmental noise was limiting the
The Zewail Group operating a Quanta FEG 650 interfaced with a custom optical set-up to enable ultrafast electron microscopy imaging. Feeding laser into SEM chamber requires positional stability within a few micrometers, so SEM internal air isolation was not in use.
A consortium of researchers aimed to understand binocular encoding within the Damselfly Pre-motor Target Tracking Systems. Paloma Bellido of the University of Minnesota worked with Herzan to remove vibration noise from the electrophysiology testing setup created. Ultimately, the testing setup helped record intracellularly from neurons in damselflies.
The Turner Group is using interferometry to measure the deflection on an AFM probe. The instrument is being used to investigate adhesion and surface properties of nanoscale materials for MEMS applications. Despite being placed on an air-based isolation table, the instrument’s measurements
