DCS-120 MACRO
FLIM of Macroscopic Objects
Scan Field Up to 15 mm Diameter
Two Fully Parallel TCSPC FLIM Channels
Recording by bh's Multidimensional TCSPC Process
Compact bh Simple-Tau or Power-Tau TCSPC System
Scanning by Fast Galvanometer Mirrors
Channel Seperation by Dichroic or Polarising Beamsplitters
Individually Selectable Pinholes and Filters
One or Two BDL-SMN or BDS-SM ps Diode Lasers
Tuneable Excitation by Super-Continuum Laser with AOTF
Two Fully Parallel Confocal Detection Channels
Two HPM-100-40 GaAsP Hybrid Detectors
Optional: Two HPM-100-06 Hybrid Detectors, IRF Width < 20 ps FWHM
Optional: HPM-100-50 Hybrid Detectors for NIR FLIM
Optional: Multi-Wavelength FLIM
Excellent Time Resolution: Electrical IRF Width 3.5 ps FWHM
Time Channel Width Down to 405 fs
Megapixel FLIM, Up to 2048 x 2048 Pixels at 256 Time Channels
Simultaneous FLIM/PLIM
Wideband Version, Compatible with Tuneable Lasers
Electronic Pinhole Alignment
Optional: Spatial Mosaic FLIM via Motorized Sample Stage
The DCS-120 MACRO version of the DCS system scans objects directly in the focal plane of the scanner. Objects up to a size of 15 mm can be imaged at a resolution of about 25 micrometers. As the DCS-120 confocal FLIM system, the DCS-120 MACRO uses excitation by ps diode lasers, fast scanning by galvanometer mirrors, confocal detection, and FLIM by bh’s multidimensional TCSPC technique to record fluorescence lifetime images at high temporal resolution, high spatial resolution, and high sensitivity. Due to its fast beam scanning and its high sensitivity the DCS-120 MACRO system is compatible with live-object imaging. DCS-120 functions include simultaneous recording of FLIM or steady-state fluorescence images simultaneously in two fully parallel wavelength channels, laser wavelength multiplexing, time-series FLIM, time-series recording, Z stack FLIM, phosphorescence lifetime imaging (PLIM), fluorescence lifetime-transient scanning (FLITS) and FCS recording. Applications focus on lifetime variations by interactions of fluorophores with their molecular environment. Typical applications are ion concentration measurement, FRET experiments, metabolic imaging, imaging of fast physiological effects, and plant physiology.
描述 [描述] FLIM of Macroscopic Objects<br />Scan Field Up to 15 mm Diameter<br />Two Fully Parallel TCSPC FLIM Channels