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10X Objective, Nikon CFI Super Fluor

Nikon 상세 정보 보기
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재고 #88-375 3~5일내 배송
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KRW 6,065,400
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KRW 6,065,400
가격(부가세 별도)
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제품 정보 다운로드
Compatible Cover Glass Thickness (mm):
0.17
Field of View (mm):
2.20
Horizontal Field of View, 1/2" Sensor:
0.64mm
Horizontal Field of View, 2/3" Sensor:
0.88mm
Model Number:
MRF00101
Length (mm):
58.70
Length excluding Threads (mm):
58.70
Magnification:
10X
Maximum Diameter (mm):
32
Maximum Sensor Format:
2/3"
Numerical Aperture NA:
0.50
Mounting Threads:
M25 x 0.75
Compatible Tube Lens Focal Length (mm):
Focal Length: 200mm
Type:
Microscope Objective
Working Distance (mm):
1.2
Weight (g):
168.00
Style:
Infinity Corrected
Manufacturer:
Nikon
Field Number (mm):
22
Parfocal Length (mm):
59.9
Immersion Liquid:
N/A

Regulatory Compliance

RoHS 2015:
Certificate of Conformance:

제품군의 상세 설명

  • 탁월한 UV 투과율
  • 높은 Numerical Aperture 디자인
  • 낮은 Auto-Fluorescence 소재 사용

Nikon CFI Super Fluor Objective는 fluorochromes indo-1, fura-2, 그리고 fluo-3과 사용하거나 caged compound의 photo-activation용으로 사용하는 경우를 포함해 340nm 미만에서 작동하는 UV 용도에서 보다 우수한 투과율을 제공하도록 디자인되었습니다. Nikon CFI Super Fluor Objective는 낮은 auto-fluorescence 소재로 높은 numerical aperture를 갖도록 디자인되어 선명하고 밝은 형광 이미지를 보장합니다. 이 현미경 대물렌즈는 짧은 파장에서 향상된 signal-to-noise 비율을 구현하도록 최적화되어 있습니다.

기술 정보

Dimensions (mm)
Stock No. Magnification Parafocal Length
A B C D
#88-374 4X 60.06 30.0 44.4 19.7 M25 x 0.75
#88-375 10X 60.06 32.0 58.7 8.0 M25 x 0.75
#88-376 20X 60.06 33.5 58.9 9.0 M25 x 0.75
#88-377 40X 60.06 33.0 59.6 7.5 M25 x 0.75
Filter

Microscope와 Objective 이해

Learn about the different components used to build a microscope, key concepts, and specifications at Edmund Optics.

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Multiphoton Microscopy

Multiphoton microscopy is ideal for capturing high-resolution 3D images with reduced photobleaching and phototoxicity compared to confocal microscopy.

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Confocal Microscopy

Confocal microscopy provides high resolution, elimination of out-of-focus glare due to spatial filtering, and reduction of light-induced damage to the sample.

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Light Sheet Microscopy

Light sheet fluorescence microscopy uses a 2D laser sheet to illuminate a thin slice of the sample and excite fluorescence, reducing phototoxicity and damage.

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광학 현미경 용도: Fluorescence (형광)

Wondering how fluorescence microscopy works? Find out about the technique, systems, and more at Edmund Optics.

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Flourescence Microscopy

Infinite Conjugate Tube Length

Fluorescence Microscopy를 위한 Fluorophores 및 Optical Filters

Want to know more about fluorophores and optical filters for fluorescence microscopy? Find out more information and in stock optical filters at Edmund Optics.

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Infinity Corrected Objective의 분해능과 배율 이해하기

Microscopes are used in a variety of fields and applications. To understand how resolving power, magnification, and other aspects work, read more at Edmund Optics.

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Tube Lenses를 Infinity Corrected Objectives와 사용하기

Want to use an infinity corrected objective to make an image? You will need a tube lens to do it! Find out why and how it works at Edmund Optics.

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What is an "in-line" microscope?

What is an infinity-corrected objective?

Can I use an infinity-corrected objective in my microscope to get a longer working distance?

What is "DIN" and "JIS"? What is the difference between them?

I’m using the MT-1 Accessory Tube Lens and MT-1/MT-2 C-Mount Adapter. Two thin brass rings came with the adapter. How are they used?

What is the significance of the field number of an objective and what is it dependent on?

Plan Objective

Semi-Plan Objective

Tube Lens

레이저 조명을 이용한 형광 이미징

Fluorescence imaging systems are composed of three major components, an illumination source, a photo-activated fluorophore sample, and detector.

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Fluorescent Filter

The Future of Microscope Objectives

Advances in Microscopy Tackle the Challenges of the Future

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Optical Microscopy Application: Brightfield Illumination

Looking to use a simple technique for optical microscopy? Check out this article on brightfield illumination to find out more at Edmund Optics.

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Optical Microscopy Application: Darkfield Illumination

Darkfield illumination is the opposite of brightfield illumination. Find out how darkfield differs from brightfield in optical microscopy at Edmund Optics.

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Optical Microscopy Application: Phase Contrast

Think you know all the advantages for using phase contrast in optical microscopy? Advantages, image appearance, and technical details can be found at Edmund Optics.

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What is the difference between Achromatic, Semi-Plan and Plan objectives?

You have a variety of Mitutoyo Tube Lenses (MT-4, MT-1, and MT-2). How can you connect them to a Mitutoyo objective and C-mount camera?

I have an MT-L Accessory Tube Lens but I am unsure about mounting it to my objective and C-Mount camera. Can you explain how it works?

Achromatic Objective(색지움 대물렌즈)

Apochromatic

Confocal Microscopy (공초점 현미경)

DIN (Deutsche Industrie Norm)

Periplan Eyepiece

Optical Cage System Application: Digital Video Microscope

Are you looking to simplify the assembly of a digital video microscope? Find out how a TECHSPEC Optical Cage System allows for quick build at Edmund Optics.

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Optical Microscopy Application: Differential Interference Contrast

Differential interference contrast (DIC) is one of the polarization techniques that can be used in optical microscopy. Learn about this technique at Edmund Optics.

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Field Number

광학 케이지 시스템 어플리케이션: DIC(Differential Interference Contrast) 디지털 현미경

Differential interference microscopy enhances the contrast of object features that are otherwise difficult to observe using brightfield microscopy.

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Darkfield Illumination

Diffraction Limit (회절 제한)

Parfocality

Digital Video Microscope 대물렌즈 설치

Digital video microscopes use a camera to capture and record images. Read more about the components needed to assemble a video microscope at Edmund Optics.

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Brightfield Illumination

Field of View (FOV)

Magnification(확대)

Numerical Aperture (NA, 개구수)

Fluorescence Microscopy: Imaging Filters가 장착된 In-Line Illumination

Want to know about fluorescence microscopy? Read this article by a Biomedical Product Line Engineer at Edmund Optics to learn more.

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Refraction

 
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