10x Objective Lenses

Description: and higher numerical apertures. With resolution from 5 to 0.34 microns, these objectives can be used for wide applications such as repairing touch panel and solar cell. Features: Used for near infrared laser system Co-Axial vision for real time monitoring Infinity optical system, tube

• Features: IR / NIR
• Field of View: 0.4800 to 12 mm
• Lens Type: Objective Lens
• Magnification: 2 to 50 X

Description: Same Resolving Power as High Resolution Lenses with Larger FOV Navitar's HR Plan Apo Infinity Corrected Objective Lens Series includes magnifications of 1X, 2X, 4X, 6X, 10X and 20X. These lenses offer: More resolving power

• Lens Type: Objective Lens

Description: removes undesired higher spatial frequencies to produce a clean uniform output beam. Finite Conjugate Objective Selection Our MV- and M- microscope objectives are corrected for a rear conjugate at 187 mm and 160 mm, respectively. The MV- series is the economical choice for standard

• Lens Type: Objective Lens
• Magnification: 5 to 60 X
• Numerical Aperture: 0.1000 to 0.8500 NA

Description: Microscope Objective 2X magnification with a 0.06 N.A. (Numerical Aperture) used on the MTSM, MTSI, MTSF Modular Toolscope Microscope or XAM-1 X Axis Measuring Microscope.

• Lens Type: Objective Lens
• Magnification: 2 X

Description: Microscope Objective 3X magnification with a 0.08 N.A. (Numerical Aperture) used on the MTSM, MTSI, MTSF Modular Toolscope Microscope or XAM-1 X Axis Measuring Microscope.

• Lens Type: Objective Lens
• Magnification: 3 X

Description: be calculated by multiplying the magnification power of the eyepiece by that of the objective lens. If an object is viewed through a 10x eyepiece and a 4x objective, the image produced will have been magnified 40x.

• Features: Oil / Water Immersion
• Lens Type: Objective Lens
• Magnification: 4 to 100 X
• Optical Type / Correction Factor: Achromatic, Apochromat, Plan

Description: 10x Short Objective

• Lens Type: Objective Lens

Description: rear conjugate of these UV fused silica objective lenses is corrected for infinity, ideal for interacting with collimated laser beams. The optical design is computer optimized to yield better than ?/5 total wavefront distortion from 350-1064 nm. The objectives feature our

• Features: UV / NUV
• Lens Type: Objective Lens
• Magnification: 13 to 37 X
• Numerical Aperture: 0.1100 to 0.1300 NA

Description: 100x Short Objective

• Lens Type: Objective Lens

Description: 40x Short Objective

• Lens Type: Objective Lens

Description: 4x Short Objective

• Lens Type: Objective Lens

Description: brightfield Plan semi-apochromat objective lenses corrected for chromatic aberration at a high level A line-up of objective lenses from 1.25x through 100x with working distance of 1mm or more Unified pupil position from 5x though 100x to

• Field of View: 22 to 26.5 mm
• Lens Type: Objective Lens
• Magnification: 1.25 to 100 X
• Numerical Aperture: 0.0400 to 0.9000 NA

Description: Interference Contrast (DIC), Fluorescence and Simple polarized light Longer working distance helps protect samples with topography Standard pupil position allows the use of a single DIC prism for all objective lenses (5x-100x)

• Field of View: 26.5 mm
• Lens Type: Objective Lens
• Magnification: 5 to 100 X
• Numerical Aperture: 0.1300 to 0.8000 NA

Description: Infinity Corrected Plan Achromatic Microcsope objectives are ideal for collimating and focusing laser beams in the visible spectrum. Precison optical fabrication and assembly in a class 10,000 cleanroom environment, these objectives are an excellent choice for standard

• Lens Type: Objective Lens
• Magnification: 4 to 60 X
• Numerical Aperture: 0.1000 to 0.8500 NA
• Optical Type / Correction Factor: Achromatic

Description: 40X Microscope Objective Lens for Modular Toolscope MIcroscope, Toolmakers High Magnification Microscope, ZDM-1 & ZDM-3 Depth Measuring Microscopes When combined with a 10X Eyepiece the total magnification of the system is 400X with a working distance of

• Lens Type: Objective Lens
• Magnification: 40 X

Description: 4X Microscope Objective Lens for Modular Toolscope MIcroscope When combined with a 10X Eyepiece the total magnification of the system is 40X with a working distance of 0.600", F.O.V of 0.1606" & D.O.F. of 0.050"

• Lens Type: Objective Lens
• Magnification: 4 X

Description: Brightfield, Darkfield, Differential Interference Contrast (DIC) and polarized light Plan semi-apochromat objective lenses corrected for apochromatic aberration at a high level A line-up of objective lenses from 5x through 100x with working distance of 1mm

• Field of View: 26.5 mm
• Lens Type: Objective Lens
• Magnification: 5 to 100 X
• Numerical Aperture: 0.1500 to 0.9000 NA

Description: to brightfield, darkfield, differential interference contrast (DIC), fluorescence and simple polarized light Longer working distances helps protect samples with topography Standard pupil position allows the use of a single DIC Prism for all objectives lenses (5x-100x)

• Field of View: 26.5 mm
• Lens Type: Objective Lens
• Magnification: 5 to 100 X
• Numerical Aperture: 0.1300 to 0.8000 NA

Description: be optimized as a set to achieve maximum resolution. Spot sizes of 2 µm for the 15X objective and 1 µm for the 36X objective are typical. Reverse Cassegrain Design In a typical focusing application, collimated light passes through the aperture hole in the primary mirror

• Lens Type: Objective Lens
• Magnification: 15 to 36 X
• Numerical Aperture: 0.4000 to 0.5200 NA

Description: Ideal for Brightfield, Darkfield, or Fluorescence Microscopy Excellent Price-to-Performance Ratio Suitable for Introductory and Advanced Optical Microscopy Applications Additional Olympus Infinity-Corrected Objectives Available Olympus Plan

• Lens Type: Objective Lens
• Magnification: 10 X
• Numerical Aperture: 0.2500 NA
• Working Distance: 10.2 mm

Description: Video-dedicated Microscope Objectives 37mm Working Distances Designed for Use in Conjunction with Other Infinity Products The newly-developed Infinity Achrovid? series is a cost-effective complement to traditional Mitutoyo Long Working Distance

• Lens Type: Objective Lens
• Magnification: 10 X
• Numerical Aperture: 0.2100 NA
• Working Distance: 17.5 mm

Description: Ideal for Brightfield, Darkfield, DIC, Fluorescence, or Polarization Microscopy Excellent Transmission in the UV High Numerical Apertures and Oil Immersion Options Available Additional Olympus Infinity-Corrected Objectives Available Olympus Plan

• Lens Type: Objective Lens
• Magnification: 10 X
• Numerical Aperture: 0.3000 NA
• Working Distance: 10 mm

Description: Ideal for Brightfield, Darkfield, DIC, Fluorescence, or Polarization Microscopy Long Working Distances Reduce Risk of Specimen Damage Over 90% Transmission from 400 700nm Additional Olympus Infinity-Corrected Objectives Available Olympus Long

• Lens Type: Objective Lens
• Magnification: 10 X
• Numerical Aperture: 0.2500 NA
• Working Distance: 21 mm

Description: Auxiliary Objective Lens

Description: are optimized for use with Optem Micro-Inspection Lens Systems and A-Zoom Probing Microscopes, but feature M26 x 36T threads for integration versatility with many metallurgical microscopes and industrial inspection systems. Long working distances High Performance M26x0.706 mm

• Field of View: 0.1000 to 3.2 mm
• Lens Type: Objective Lens
• Magnification: 2 to 50 X
• Numerical Aperture: 0.0550 to 0.6000 NA

Description: . Microscope objectives are typically composed of multiple lens elements and located closest to the object. Microscope objectives include infinite conjugate (infinite corrected) and finite conjugate, and these lenses are available in a range of magnifications from

• Lens Type: Objective Lens
• Magnification: 40 X
• Numerical Aperture: 0.6500 NA
• Optical Type / Correction Factor: Achromatic, Plan

Description: Universe manufactures a full line of objectives and eyepieces for microscopy and other applications. 4x through 100x are in stock, as well as 60x long-working-distanc e objectives. They are all glass achromatic designs and can be used as fiber couplers, spatial

• Lens Type: Eyepiece Lens
• Magnification: 20 X
• Numerical Aperture: 0.4000 NA
• Working Distance: 2.1 mm

Description: The Nano-F3D is an objective lens piezo nanopositioner designed to provide the unique capability of moving a lens in all three axes (XYZ). Simultaneous, three axis motions of up to 100 microns can be accomplished with sub-nanometer positioning resolution. As with all Mad City

• Axis Configuration: X-Y-Z Axes
• Carriage Load: 1.1 lbs
• Drive Specifications: Other
• Motor Specifications: Other

Description: Eyepiece 10x

• Lens Type: Eyepiece Lens
• Magnification: 10 X

Description: and are easy to align. A single ball lens is used to couple a laser beam to an optical fiber, while two ball lenses are used to couple two optical fibers. Other applications include objective lenses for endoscopy or optical sensors, and in the miniature optics used for

• Lens Application: Visible, Ultraviolet
• Lens Type: Ball Lens, Spherical Lens

Description: piezoelectric objective lens positioning system 100 µm adjustment range thread size W0.8x1/36" to M 27x0.75 easy to fix onto microscopes by Flex-Adapter very compact design parallelogram construction high resonant frequency

• Minimum Step Size (Resolution): 2.00E-4 µm
• Type: Z-Axis Stage

Description: : Accurate, reliable measurement of display luminance and chromaticity 5X microscope and add-on 2X teleconverter (converts 5X to 10X lens) Imaging for multiple data points, increasing measurement efficiency Magnification of details captured by high

Description: Super-widefield 5X eyepieces for use with all Meiji EM Series microscopes

• Lens Type: Eyepiece Lens
• Magnification: 5 X

Description: source: when a plano convex lens is used to collimate a point source, the beam should be incident on a flat surface. 6. Astronomical observation:plano convex lenses can be used to make objective lenses for telescopes to help observe distant objects. 7. Military: plano

• Surface Flatness: λ/4
• Surface Quality: 40-20 Scratch / Dig

Description: the screw thread used for mounting the objective assembly to the body or lens turret of microscopes. It is based on, and intended to be interchangeable with, the screw thread introduced and adopted many years ago by the Royal Microscopical Society of Great Britain, generally known as