The probes are used with a cost-effective, turn-key recording system that runs RadiensTM Allego software, featuring automated mapping, monitoring, and visualization of all electrode sites simultaneously and more.
Current probes and differential probes are just two special classes of probes among the many different types of available probes. The rest of this chapter covers some of the more common types of probes and their special benefits.
Activity-based probes are one such technology that has made significant advances in the past decade (for additional reviews see Cravatt et al.,1 Evans and Cravatt,2 Fonovic and Bogyo3 and Schmitinger et al.4). This technology is centered around the development of small molecule probes that bind to a target enzyme using a mechanism that requires enzymatic activity. Thus, an ABP binds to its ...
Microimaging (μMRI) probes began very much like conventional liquids probes with the addition of a 3-axis gradient coil. Nowadays, most microimaging is done in horizontial-bore magnets, as the vast majority of the applications involve small animals, and their handling is much easier in the horizontal bore.
Langmuir Probes Electron collection Ion collection Floating Potential Measurements from Langmuir probes Non-ideal effects Double and triple probes
probe complexity arguments for “simple” probes we want to find easily accessible information in a representation arguments for “complex” probes useful properties might be encoded non-linearly control tasks designing control tasks
Constructed from sturdy materials, Orion probes are designed to achieve precise readings across subtle variations in conductivity, withstand the effects of concentrated acids, and measure highly conductive substances. They are well suited for resistivity, total dissolved solids (TDS), and salinity measurements when used with Orion multiparameter and conductivity meters and solutions. For more ...