Objective lensmagnification

Part No.NAWD (mm)FL (mm)Resolution (µm)± DOF (μm)Wavelength (nm)FOV φ24 mmFOV 1″ CCD (mm)Weight (g)M-PlanAPO-1X0.02513.0200.0011.00440.00400-70024.009.60 x 12.80240M-PlanAPO-2X0.05534.0100.005.0091.00400-70012.004.80 x 6.40206M-PlanAPO-3.5X0.10041.057.142.8028.00400-7006.902.70 x 3.60218M-PlanAPO-5X0.14035.040.002.0014.00400-7004.801.92 x 2.56212M-PlanAPO-7.5X0.21034.026.671.306.20400-7003.601.28 x 1.70247M-PlanAPO-10X0.28034.020.001.003.50400-7002.400.96 x 1.28217M-PlanAPO-15X0.35022.013.330.802.20400-7001.800.64 x 0.85240M-PlanAPO-20X0.42020.010.000.701.60400-7001.200.48 x 0.64271M-PlanAPO-50X0.55013.04.000.500.90400-7000.480.19 x 0.26298M-PlanAPO-HR-5X0.21025.040.001.306.20400-7004.801.92 x 2.56251M-PlanAPO-HR-10X0.42015.020.000.701.60400-7002.400.96 x 1.28382M-PlanAPO-HR-20X0.6009.510.000.500.76400-7001.200.48 x 0.64563M-PlanAPO-HR-100X0.9001.42.000.300.34400-7000.240.10 x 0.13362M-PlanAPO-SL-20X0.29030.010.000.903.30400-7001.200.48 x 0.64236M-PlanAPO-SL-50X0.42020.04.000.701.60400-7000.480.19 x 0.26286M-PlanAPO-SL-100X0.55013.02.000.500.90400-7000.240.10 x 0.13302M-PlanAPO-NIR-20X0.42020.010.000.651.56532/1030-10641.200.48 x 0.64377M-PlanAPO-NIR-50X0.55013.04.000.500.91532/1030-10640.480.19 x 0.26394M-PlanAPO-HRNIR-20X0.6009.510.000.460.76532/1030-10641.200.48 x 0.64563i-PlanAPO-HRNIR-50X0.67010.04.000.410.61532/1030-10640.480.19 x 0.26470M-PlanAPO-HRNIR-50X0.7504.04.000.370.49532/1030-10640.480.19 x 0.26582LCD-PlanAPO-NIR-20X(t0)0.40020.010.000.701.70532/1030-10641.200.48 x 0.64260LCD-PlanAPO-NIR-20X(t0.7)0.40020.010.000.701.70532/1030-10641.200.48 x 0.64259LCD-PlanAPO-NIR-20X(t1.1)0.40020.010.000.701.70532/1030-10641.200.48 x 0.64258LCD-PlanAPO-NIR-50X(t0)0.45015.04.000.601.40532/1030-10640.480.19 x 0.26300LCD-PlanAPO-NIR50X(t0.7)0.45015.04.000.601.40532/1030-10640.480.19 x 0.26299LCD-PlanAPO-NIR50X(t1.1)0.45015.04.000.601.40532/1030-10640.480.19 x 0.26298M-PlanAPO-NUV-20X0.42017.010.000.651.56355, 532 & 365, 4051.200.48 x 0.64268M-PlanAPO-HRNUV-50X0.65010.04.000.420.65355, 532 & 365, 4050.480.19 x 0.26405LCD-PlanAPO-NUV-20X(t0)0.40020.010.000.701.70355, 5321.200.48 x 0.64262LCD-PlanAPO-NUV-20X(t0.7)0.40020.010.000.701.70355, 5321.200.48 x 0.64261LCD-PlanAPO-NUV-20X(t1.1)0.40020.010.000.701.70355, 5321.200.48 x 0.64260LCD-PlanAPO-NUV-50X(t0)0.45015.04.000.601.40355, 5320.480.19 x 0.26295LCD-PlanAPO-NUV-50X(t0.7)0.45015.04.000.601.40355, 5320.480.19 x 0.26294LCD-PlanAPO-NUV-50X(t1.1)0.45015.04.000.601.40355, 5320.480.19 x 0.26293

Apochromatic microscope objective lenses are infinite optical systems available in several magnifications working in the spectral region from 355nm to 1064nm. It is ideal for co-axial vision for real-time monitoring such as laser processing, micro-imaging, DIC imaging, and fluorescence inspection in bio-imaging. It is also used to laser repair the touch panel and the solar cell.

Objective lens microscopefunction

Mar 28, 2018 — I'm wondering why you can't use the following format for entering the length when applying a shape from the Content Center 40'-6 1/2"?

Ocularlens

by C Robens · 2016 · Cited by 65 — The lens system exploits the principle of the Weierstrass-sphere solid immersion lens to reach a numerical aperture (NA) of 0.92. Tailored to ...

The objective lens is called such because it is the lens closest to the object being observed. The magnification power of a microscope is determined by the magnification of the objective lens and the magnification of the eyepiece or tube lens.

Objective lensfunction

Part No.NAWD (mm)FL (mm)Resolution (µm)± DOF (μm)Field NumberFOV (mm)Weight (g)ThreadPlanFluor-EPI-5X0.1520401.8012.00255.0057W4/5″ x 1/36″PlanFluor-EPI-10X0.3011200.903.10252.5065W4/5″ x 1/36″PlanFluor-EPI-20X0.453100.601.40251.2577W4/5″ x 1/36″PlanFluor-EPI-50X0.80140.340.43250.5089W4/5″ x 1/36″PlanFluor-EPI-100X0.90120.310.34250.2590W4/5″ x 1/36″PlanFluor-EPI-BD-5X0.1520401.8012.00255.0078M26 x 0.706PlanFluor-EPI-BD-10X0.3011200.903.10252.5095M26 x 0.706PlanFluor-EPI-BD-20X0.453100.601.40251.25111M26 x 0.706PlanFluor-EPI-BD-50X0.80140.340.43250.50123M26 x 0.706PlanFluor-EPI-BD-100X0.90120.310.34250.25122M26 x 0.706L-PlanFluor-EPI-20X0.4012100.701.70251.2565W4/5″ x 1/36″L-PlanFluor-EPI-50X0.5010.440.551.10250.5068W4/5″ x 1/36″L-PlanFluor-EPI-100X0.803.120.340.43250.2588W4/5″ x 1/36″

Microscopemagnification formula

An objective lens of a microscope is responsible for gathering and focusing light from the specimen being observed to produce an image. It is typically located near the bottom of the microscope’s body and consists of a series of lenses that work together to magnify the image of the specimen.

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What is the purpose of theobjective lensin a lightmicroscope

Apr 6, 2012 — Elitez, scopes, ownage, merkz, beast, sniper, soulja. Yeah ... OT: i had have to say OPTIC is kinda over used. Link to comment ...

RMS and RA are two of the most widely used tools for measuring metal surface roughness. RMS stands for Root Mean Square and is used to measure the surface ...

Whichobjective lensshould be in position before you store amicroscope

Frameless mirrors. Enjoy the sleek and modern look of a frameless mirror. Because of their lack of frames, these mirrors contribute to a feeling of ...

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From Google search: Divide the FOV number over the magnification of the objective you are using. That would be your field diameter (e.g 20/10 ...

There are typically several objective lenses on a microscope, each with a different magnification power. The user can switch between the lenses to observe different parts of the specimen at different levels of magnification.

Objective lens

I am using an 8x10 view camera with a 210mm lens. The formula for hypperfocal distance H =f^2/Nc, assuming N=22 and c=0.01, predicts a hyperfocal distance of 66 ...

The Tube Lens is designed to use together with the objective lens for imaging applications. It acts as a secondary lens by allowing light to pass through the body of the tube as parallel rays from the objective lens. These parallel rays are focused by the tube lens to form an intermediate image with minimal aberration.

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