Inverted Microscope System - For in vitro observation of 3D cell (spheroid) and tissue cultures
Learn more about the Gantry Microscope System The 355 mm height clearance between the objective and the base plate facilitates in vivo observations that require large apparatus, such as behavioral imaging in awake mice. Gantry Microscope System - For in vivo observations that require more space Learn more about the Upright Microscope System The large stage clearance and long focus stroke of the standard upright frame accommodate a wide range of specimens, from tissue slices to live mice and other small animals. Upright Microscope System - For in vivo and in vitro multiphoton microscopy Online analysis and image processing, including spectral unmixing and 3D rendering, come standard. Save acquisition parameters from each experiment and recall them for repeatable and consistent imaging.Choose to see only the tools you need for fast access to advanced features.
The customizable software layout gives you more flexibility, increasing your efficiency: Intuitive Software Optimized for Multiphoton Observation Digital TTL input/output lines to coordinate sensory stimuli with multiphoton imaging during behavioral experiments.Analog input channels to support electrophysiology experiments.An independent scanner path for optogenetics and other photomanipulation experiments.
The FVMPE-RS multiphoton microscope is a modular platform, enabling you to easily upgrade your system as your research needs grow. Optional Features for Advanced Applications Unlabeled porcine adipose tissue was irradiated with femtosecond laser at 1250 nm, second harmonic is detected from collagen fibers at 625 nm and third harmonic from lipid interfaces at 416 nm. Third harmonic generation imaging of porcine adipose tissue.
Optimally excite different fluorophores without having to repeatedly tune the laser.The FVMPE-RS imaging platform supports a dual wavelength infrared pulsed laser or two independent tunable infrared lasers for multichannel, multiphoton excitation imaging. Multiwavelength Excitation for Broader Spectral Coverage 438 fps maximum imaging speed enables you to capture rapid, dynamic phenomena, such cell transport during blood flow and calcium signaling events in neurons and other cells.