2X Auxiliary Objective Barlow Lens for SZ0503 Zoom Stereo Microscope (48mm)

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SKU:
SZ05034611
Condition:
New
Warranty:
5 Years
Certificate:
ISO9001, ISO13485, ISO14001, RoHS
  • 2X Auxiliary Objective Barlow Lens for SZ0503 Zoom Stereo Microscope (48mm)
  • 2X Auxiliary Objective Barlow Lens for SZ0503 Zoom Stereo Microscope (48mm)
  • 2X Auxiliary Objective Barlow Lens for SZ0503 Zoom Stereo Microscope (48mm)
  • 2X Auxiliary Objective Barlow Lens for SZ0503 Zoom Stereo Microscope (48mm)
  • 2X Auxiliary Objective Barlow Lens for SZ0503 Zoom Stereo Microscope (48mm)
  • 2X Auxiliary Objective Barlow Lens for SZ0503 Zoom Stereo Microscope (48mm)


Quick Overview
Finite. 2X. Achromatic Objective. Objective Working Distance: 33mm. For SZ0503 Series Microscope.

SZ05034611 2X Auxiliary Objective
Stereo Auxiliary Lens
Objective Optical SystemFinite
Objective Optical Magnification2X
Objective TypeAchromatic Objective
Objective Working Distance33mm
Objective Screw ThreadM48x0.75mm
Objective Outer Diameter Dia. 49.5mm
Barlow LensYes
Surface TreatmentElectroplating Black
MaterialMetal
ColorBlack
Net Weight0.08kg (0.18lbs)
Applied FieldFor SZ0503 Series Microscope

 


Technical Info

Instructions
ObjectiveClose Λ
The objective (lens) is the first set of optical systems that image the object being observed, and is also the most important imaging component in the microscope.
Depending on the application, objective is usually classified into the following categories:

Biological Objective
Metallurgical Objective
Phase Contrast Objective
Polarizing Objective
Dark/Bright Field Objective
Stereo Objective
Monocular Video Microscope Objective
Infinity-Corrected Long Working Distance Objective
NIR Objective
NUV Objective
UV Objective
Telecentric Objective Lens

Some objectives are mounted directly on the microscope body, some separate from the body and are installed when needed.
Different types of microscope objectives are generally not interchangeable. However, when ofthe same type and parameter design the same or similar, the objectives of different models and manufacturers are interchangeable, provided that attention shouldbe paid to the change in magnification, working distance, field of view and image quality.

Usually, on the objective outer casing, there are signs of the following parameters:
Objective Magnification: for example 10X, 40X
Numerical Aperture (N.A.): for example, /1.30
Objective Immersion Media: Oil represents oil, W represents water, and Glyc represents glycerin
Mechanical Tube Length and Objective Cover Glass Thickness: the two parameters are usually written together and separated by /. The finite mechanical is usually 160, 195, etc., and infinite is represented by "∞"; objective cover glass thickness (thickness / mm) is expressed after/, for example /0.17; for specimen that does not use objective cover glass, it is represented by 0, for example, "/0"; for those that do not use objective cover glass or the objective cover glass thickness is smaller than 0.17, it is represented by "/-".
Phase Contrast Objective: represented by PH, for example, PH2, the digit after PH represents the associated ring diaphragm.
Polarizing Objective: represented by POL.
Plan Objective: represented by PLAN or PL
Achromatic: generally, achromatic objective does not require identification
Apochromatic: represented by APO
Long Working Distance: represented by L
There are also objectives that are unique in magnification and medium, and their difference is indicated by color circle.
For objectives that do not have mark, it is necessary to refer to the microscope body for judgment, or refer to the product manual.

Usually, the objective has very fine mounting threads. When there is a need to install the objective /objective frame, be careful to install it. Align the nosepiece installation position, keep it completely “flat”. When it is blocked, remove it and reinstall it. Do not force it in.

Note: although between different manufacturers, some objectives can be used universally, they may still bring magnification error and image quality degradation.
FiniteClose Λ
Microscopes and components have two types of optical path design structures.
One type is finite optical structural design, in which light passing through the objective lens is directed at the intermediate image plane (located in the front focal plane of the eyepiece) and converges at that point. The finite structure is an integrated design, with a compact structure, and it is a kind of economical microscope.
Another type is infinite optical structural design, in which the light between the tube lens after passing the objective lens becomes "parallel light". Within this distance, various kinds of optical components necessary such as beam splitters or optical filters call be added, and at the same time, this kind of design has better imaging results. As the design is modular, it is also called modular microscope. The modular structure facilitates the addition of different imaging and lighting accessories in the middle of the system as required.
The main components of infinite and finite, especially objective lens, are usually not interchangeable for use, and even if they can be imaged, the image quality will also have some defects.

The separative two-objective lens structure of the dual-light path of stereo microscope (SZ/FS microscope) is also known as Greenough.
Parallel optical microscope uses a parallel structure (PZ microscope), which is different from the separative two-object lens structure, and because its objective lens is one and the same, it is therefore also known as the CMO common main objective.
Objective Optical MagnificationClose Λ
The finite objective is the lateral magnification of the primary image formed by the objective at a prescribed distance.

Infinite objective is the lateral magnification of the real image produced by the combination of the objective and the tube lens.
Infinite objective magnification = tube lens focal length (mm) / objective focal length (mm)

Lateral magnification of the image, that is, the ratio of the size of the image to the size of the object.
The larger the magnification of the objective, the higher the resolution, the smaller the corresponding field of view, and the shorter the working distance.
Objective TypeClose Λ
In the case of polychromatic light imaging, the aberration caused by the light of different wavelengths becomes chromatic aberration. Achromatic aberration is to correct the axial chromatic aberration to the two line spectra (C line, F line); apochromatic aberration is to correct the three line spectra (C line, D line, F line).
The objective is designed according to the achromaticity and the flatness of the field of view. It can be divided into the following categories.

Achromatic objective: achromatic objective has corrected the chromatic aberration, spherical aberration, and comatic aberration. The chromatic portion of the achromatic objective has corrected only red and green, so when using achromatic objective, yellow-green filters are often used to reduce aberrations. The aberration of the achromatic objective in the center of the field of view is basically corrected, and as its structure is simple, the cost is low, it is commonly used in a microscope.

Semi-plan achromatic objective: in addition to meeting the requirements of achromatic objective, the curvature of field and astigmatism of the objective should also be properly corrected.
Plan achromatic objective: in addition to meeting the requirements of achromatic objectives, the curvature of field and astigmatism of the objective should also be well corrected. The plan objective provides a very good correction of the image plane curvature in the field of view of the objective, making the entire field of view smooth and easy to observe, especially in measurement it has achieved a more accurate effect.

Plan semi-apochromatic objective: in addition to meeting the requirements of plan achromatic objective, it is necessary to well correct the secondary spectrum of the objective (the axial chromatic aberration of the C line and the F line).
Plan apochromatic objective: in addition to meeting the requirements of plan achromatic objective, it is necessary to very well correct the tertiary spectrum of the objective (the axial chromatic aberration of the C line, the D line and the F line) and spherochromatic aberration. The apochromatic aberration has corrected the chromatic aberration in the range of red, green and purple (basically the entire visible light), and there is basically no limitation on the imaging effect of the light source. Generally, the apochromatic aberration is used in a high magnification objective.

Objective Working DistanceClose Λ
The objective working distance is the vertical distance from the foremost surface end of the objective of the microscope to the object surface to be observed.
Generally, the greater the magnification, the higher the resolution of the objective, and the smaller the working distance, the smaller the field of view. Conversely, the smaller the magnification, the lower the resolution of the objective, and the greater the working distance, and greater the field of view.
High-magnification objectives (such as 80X and 100X objectives) have a very short working distance. Be very careful when focusing for observation. Generally, it is after the objective is in position, the axial limit protection is locked, then the objective is moved away from the direction of the observed object.
The relatively greater working distance leaves a relatively large space between the objective and the object to be observed. It is suitable for under microscope operation, and it is also easier to use more illumination methods. The defect is that it may reduce the numerical aperture of the objective, thereby reducing the resolution.
Objective Screw ThreadClose Λ
For microscopes of different manufacturers and different models, the thread size of their objectives may also be different.
In general, the objective threads are available in two standard sizes, allowing similar objectives between different manufacturers to be used interchangeably.
One is the British system: RMS type objective thread: 4/5in X 1/36in,
One is metric: M25 X 0.75mm thread.
PackagingClose Λ
After unpacking, carefully inspect the various random accessories and parts in the package to avoid omissions. In order to save space and ensure safety of components, some components will be placed outside the inner packaging box, so be careful of their inspection.
For special packaging, it is generally after opening the box, all packaging boxes, protective foam, plastic bags should be kept for a period of time. If there is a problem during the return period, you can return or exchange the original. After the return period (usually 10-30 days, according to the manufacturer’s Instruction of Terms of Service), these packaging boxes may be disposed of if there is no problem.
Packing  
Packaging TypeCarton Packaging
Packaging MaterialCorrugated Carton
Packaging Dimensions(1)6x6x4.5cm (2.362x2.362x1.771″)
Inner Packing MaterialPlastic Bag
Ancillary Packaging MaterialsSponge
Gross Weight0.08kg (0.18lbs)
Minimum Packaging Quantity1pc
Transportation CartonCarton Packaging
Transportation Carton MaterialCorrugated Carton
Transportation Carton Dimensions(1)15.2x15.2x15.2cm (6x6x6″)
Total Gross Weight of Transportation(kilogram)0.21
Total Gross Weight of Transportation(pound)0.46

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