-
Supplier: Edmund Optics Inc.
Description: Achromatic Design Standard RMS Thread Compatible with all DIN Standard Accessories Spring Loaded Heads on 40X, 60X, 100X These Nikon Finite Conjugate Objectives are excellent for simple high power imaging systems. These objectives do not require a
- Field of View: 4.5 mm
- Lens Type: Objective Lens
- Magnification: 4 X
- Numerical Aperture: 0.1000 NA
-
Supplier: Edmund Optics Inc.
Description: Achromatic Design Standard RMS Thread Compatible with all DIN Standard Accessories Spring Loaded Heads on 40X, 60X, 100X These Nikon Finite Conjugate Objectives are excellent for simple high power imaging systems. These objectives do not require a
- Field of View: 1.8 mm
- Lens Type: Objective Lens
- Magnification: 10 X
- Numerical Aperture: 0.2500 NA
-
Supplier: Edmund Optics Inc.
Description: Achromatic Design Standard RMS Thread Compatible with all DIN Standard Accessories Spring Loaded Heads on 40X, 60X, 100X These Nikon Finite Conjugate Objectives are excellent for simple high power imaging systems. These objectives do not require a
- Field of View: 0.3000 mm
- Lens Type: Objective Lens
- Magnification: 60 X
- Numerical Aperture: 0.8000 NA
-
-
Supplier: Edmund Optics Inc.
Description: Achromatic Design Standard RMS Thread Compatible with all DIN Standard Accessories Spring Loaded Heads on 40X, 60X, 100X These Nikon Finite Conjugate Objectives are excellent for simple high power imaging systems. These objectives do not require a
- Field of View: 0.1800 mm
- Lens Type: Objective Lens
- Magnification: 100 X
- Numerical Aperture: 1.25 NA
-
Supplier: Newport MKS
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
- Lens Type: Objective Lens
- Magnification: 5 to 60 X
- Numerical Aperture: 0.1000 to 0.8500 NA
-
Supplier: Shanghai Optics
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
- Lens Type: Objective Lens
- Magnification: 40 X
- Numerical Aperture: 0.6500 NA
- Optical Type / Correction Factor: Achromatic, Plan
-
Supplier: Shanghai Optics
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
- Lens Type: Objective Lens
- Magnification: 40 X
- Numerical Aperture: 0.8500 NA
- Optical Type / Correction Factor: Apochromat
-
Supplier: Shanghai Optics
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
- Lens Type: Objective Lens
- Magnification: 60 X
- Numerical Aperture: 0.8500 NA
- Optical Type / Correction Factor: Plan
-
Supplier: Shanghai Optics
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
- Lens Type: Objective Lens
- Magnification: 20 X
- Numerical Aperture: 0.5000 NA
- Optical Type / Correction Factor: Apochromat, Plan
-
Supplier: Newport MKS
Description: calculated, assuming the objective is being used with a tube lens of a particular focal length by design. When a tube lens of a different focal length is used, the magnification will need to be adjusted accordingly. As an advantage over finite conjugate
- Lens Type: Other
- Microoptic: Yes
-
Supplier: Newport MKS
Description: calculated, assuming the objective is being used with a tube lens of a particular focal length by design. When a tube lens of a different focal length is used, the magnification will need to be adjusted accordingly. As an advantage over finite conjugate
- Lens Type: Other
- Microoptic: Yes
-
Supplier: Newport MKS
Description: is calculated, assuming the objective is being used with a tube lens of a particular focal length by design. When a tube lens of a different focal length is used, the magnification will need to be adjusted accordingly. As an advantage over finite conjugate
- Lens Type: Other
- Microoptic: Yes
Find Suppliers by Category Top
Featured Products Top
-
What is Plano Convex(PCX) Lenses? Plano-convex lenses are positive focal length elements that have one flat surface and one spherical surface. These lenses are designed for infinite conjugate (parallel light) use or simple imaging in non (read more)
Browse Optical Lenses Datasheets for Changchun Yutai Optics Co., Ltd.
More Information Top
Indicates content that may require registration and/or purchase.
-
A confocal fibre scanning microscope for magnetic domain imaging
arrangement of O3 and L1 in Fig. 7 can be replaced by a finite conjugate objective lens and a field lens.
-
Optical Design for Biomedical Imaging
On the other hand, for a finite conjugate objective lens , all of the components in the imaging path should be considered when optimizing the objective lens.
-
Objective lens design for multiple-layer optical data storage
Figure SGalilean telescope with aspheric telescope elements and finite conjugate objective lens .
-
DataPlay's mobile recording technology
These are shown in Figure 4 The OPA consists of a finite conjugate objective lens , spacer, Quarter Wave Plate, periscope beam splitter and the Optical Element block.
-
DataPlay's mobile information distribution and storage technology
The OPA is assembled using machine vision robotics equipment and consists of a finite conjugate objective lens , a spacer, a quarter- wave plate, a periscope beam splitter, and the optical element block.
-
Design of optical head with holographic optical element for small form factor drive systems
This system adopts a finite - conjugate objective lens with numerical aperture 0.65 for 654-nm wavelength.
-
Optical head design using prism-type holographic optical element for small form factor applications
That is a system with a finite - conjugate objective lens of NA 0.65 and a red laser of wavelength 654 nm.
-
Astigmatic diffractive optical element for swing-arm-type optical pickup head
Based on a finite - conjugate objective lens with numerical ap- erture of 0.62 for a 650-nm wavelength, an optical pickup head com- posed of a multifunction beamsplitter and a diffractive optical element is designed be used in a swing-arm …
-
Fabrication and verification for the small-form-factor holographic optical pickup
A lens modulus which comprised a finite - conjugate objective lens and a lens holder is to focus light beam.
-
Ray-tracing study on the post-scanner variable beam expansion optics in a two-photon microscopy system
Tube lens (TL) is not required for a system which uses a finite - conjugate objective lens (OL).