Invitrogen™ EVOS™ 10X Objective, fluorite, LWD, 0.30NA/7.13WD
On demand
Order number :
AMEP4923
Invitrogen™ EVOS™ 10X Objective, fluorite, LWD, 0.30NA/7.13WD
This fluorite objective is ideal for fluorescence and demanding transmitted-light applications. This is a long working distance (LWD) objective that is optimized for the imaging of slides, cell culture dishes and flasks, and microtiter plates. All EVOS objectives offer outstanding optical performance from visible light to near infrared light. The extensive choice of objectives satisfies needs across the spectrum of magnifications and optical specifications
Features
- Fluorite objectives deliver excellent resolution and are made with higher numerical apertures than achromat objectives, resulting in brighter fluorescence signal and higher contrast imaging. The higher optical quality greatly reduces optical aberrations, and corrections for color and focus are at higher levels than achromat objectives. Fluorite objectives are ideally suited for fluorescence and demanding transmitted light applications, where the higher contrast make them ideally suited for color imaging
- Magnification: 10X
- Numerical Aperture: 0.30
- Working Distance: 7.13 mm
- Long working distance versus coverslip-corrected objectives
- Includes: Vessels, Slides, Cell Culture Dishes, Flasks, Microtiter Well Plates
- Lens Type: 10x fluorite, LWD, 0.30NA/7.13WD
- For Use With (Equipment): EVOS™ M5000, EVOS™ M7000, EVOS™ FL Imaging System, EVOS™ XL Core Imaging System, EVOS™ FL Color Imaging System, EVOS™ FL Auto Imaging System, EVOS™ XL Imaging System
There are no specifications
NO related applications
There are no report
You May Also Like
Invitrogen™ Olympus™ 20X Objective, fluorite, 0.45NA/6.6–7.8WD, correction collar (0–2.0 mm)
(Ex-work price)
$ On demand
$ On demand
On demand
EVOS™ Vessel Holder for Automated Stage, two 25 x 75 mm slides
(Ex-work price)
$ On demand
$ On demand
On demand
Thermo Scientific™ Olympus™ 60X Oil Objective, X-Apo, 1.42NA/0.15WD
(Ex-work price)
$ On demand
$ On demand