Olympus X-Line Extended Apochromat Objectives
Olympus X-Line Extended Apochromat Objectives
Numerical Aperture, NA: 0.16 0.4 0.8 0.95 0.95 1.45
Focal Length (mm): 45 18 9 4.5 4.5 1.8
Working Distance (mm): 13 3.1 0.61 0.18 0.18 0.135
Cover Glass Thickness (mm): 0 0.17 0.17 0.11 -0.23 0.11 - 0.23 0.17
Immersion Liquid: - - - - Oil Oil
Stock No. #14-905 #14-906 #14-907 #14-908 #14-909 #14-910
Price £1,666.00 £2,307.75 £2,660.50 £3,803.75 £5,542.00 £5,627.00
Olympus Water Immersion Objectives
4X 10X 20X 40X 60X 100X
TECHNICAL NOTE
Olympus Infinity Corrected Objectives
Using Olympus Objectives
with C-Mount Cameras
Olympus C-Mount
Adapter (#89-606)
C-Mount
Camera
296 +44 (0) 1904 788600 | Edmund Optics® N NEW PRODUCT NEW LOW PRICE
testing & detection targets illumination cameras imaging lenses microscopy lasers optomechanics optics
Cover Glass Thickness (mm): 0
Mounting Thread: RMS
Diameter (mm): 21
Immersion Liquid: Water
Field Number: 26.5
Parfocal Length (mm): 45.06
• High Numerical Aperture (NA) up to 1.45
• Chromatic Aberration Correction from 400 - 1000nm
• Uniform Image Flatness over Large FOVs
Olympus X-Line Extended Apochromat Objectives (also referred to as the UPLXAPO series) are Olympus’ next
generation high performance objectives that simultaneously feature high numerical aperture (NA), broadband
chromatic aberration correction, and excellent image flatness. The high numerical aperture (NA) allows for
excellent light collection efficiency to better capture faint signals, enabling a shorter exposure time and higher
contrast. The broad chromatic aberration correction compensates for the wavelength-dependent spatial shift
of colors to achieve excellent color reproduction. These objectives also achieve high image flatness from the
center to the edges of images over large fields of view (FOV), making them ideal for image stitching and quantitative
image analysis. Olympus X-Line Extended Apochromat Objectives are used in demanding life science
and clinical applications including pathology, fluorescence microscopy, multicolor or widefield fluorescence
imaging, confocal or super resolution microscopy, and whole slide imaging.
• Water Immersion Objectives with Excellent DIC and Fluorescence
• Displays Flat Images From High Transmission Factors up to the Near-Infrared Region of
the Spectrum
• Ideal for Fluorescence Imaging of Tissue and Specimens, such as Brain Tissue
Olympus Water Immersion Objectives offer low to high magnification with extremely high numerical apertures
and long working distances. By using water in place of oil, you can effectively overcome common problems
with aberrations. Similar to oil immersion objectives, these water immersion objectives are useful for thinly cut
tissue sections and living cell imaging, along with other neuroscience applications. Olympus Water Immersion
Objectives feature excellent transmission in the IR region, making these lenses are suitable for IR-DIC and
fluorescence applications. High numerical apertures also provide superb image quality in combination with
most confocal laser microscopes.
Olympus Water Immersion Objectives
10X 20X 40X
Numerical Aperture, NA: 0.3 0.5 0.8
Working Distance (mm): 3.50 3.50 3.30
Length (mm): 41.5 41.5 41.7
Stock No. #34-555 #34-556 #34-557
Price £799.00 £1,517.25 £2,333.25
Field Number (mm): 26.5
Mounting Threads: RMS
Parfocal Length (mm): 45.06
Olympus Infinity Corrected Objectives are designed for a variety of life science and industrial applications.
Featuring a 45mm parfocal length, the objectives are compact and lightweight, making them suitable
for integration within virtually any optomechanical system. For proper integration with a C-Mount
imaging system, a Tube Lens (#86-835), Camera Coupler (#89-605), and C-Mount Adapter (#89-606) are
required. For applications requiring the addition of filters or other optical components, 75mm of space
is available between the objective and tube lens.
Olympus 1X
Camera Coupler (#89-605)
Olympus 180mm
Tube Lens (#86-835)
Recommended 50-75mm
spacing for optical filters,
beamsplitters, or in-line illumination
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