Objectifs

Les objectifs sont une partie indispensable des microscopes, mais sont aussi utilisées dans beaucoup d'autres applications comme les lasers haute puissance ou les applications UV et IR. Les objectifs OptoSigma ont des grossissements entre x5 et x100 et peuvent être fournis avec une compensation de lame qui peut être modifiée pour corriger les aberrations sphériques en regardant dans des échantillons d'indice variables. Nous proposons aussi des objectifs fonctionnant à longue distance et une correction chromatique si besoin, OptoSigma propose aussi des objectifs en réflexion pour une utilisation large bande optimisée. Nos objectifs standards sont corrigés à l'infini. Des objectifs complètements sur mesure sont possibles sur demande.

Selection Guide for Objective Lenses

Groups	Description	Design Wavelengths	Magnifications	Mounting Thread	Working Distance Range	Objective Families
UV Objectives	These UV objective lens are infinity corrected and can be used for laser machining with pulsed 3rd and 4th harmonic YAG Lasers. Chromatic aberration is suppressed in both the visible and UV laser wavelength, achieving a high transmittance. Available with glass thickness compensation.	266, 355 nm	10X 20X 50X 80X	M26	3.5-30.5mm	Ultra-Violet Objectives (266-355nm) Near Ultra-Violet Objectives (355-800 nm)
Visible Objectives	Visible objective lenses are available in standard and long working distance (LWD) versions. Chromatic aberration and infinity correction is available with LWD types. The objective will allow user to focus a visible laser or perform microscopic observation of objects from a distance.	400−700nm	1X 2X 5X 10X 20X 50X 100X	M20.32 (RMS) M26	0.3-45.3mm	Long Working Distance - PAL-PAL-L Standard - EPL-EPLE Low Cost – OBL
IR Objectives	IR objective lens have high numerical apertures and are infinity corrected. They are used for laser machining with pulsed fundamental-harmonic YAG Lasers. Chromatic aberration is suppressed in the visible laser wavelength, achieving a high transmittance. Available with glass thickness compensation.	1064nm	5X 10X 20X 50X 100X	M26	10-44mm	PAL-NIR-LC PAL-NIR
Multi-Wavelength YAG Laser Objectives	These objective lens can be used for machining with YAG lasers. A single objective can be used for all three harmonic wavelengths: 2nd HG, 3rd HG, and 4th HG. Multi-wavelength objectives are infinity corrected and have long working distances.	266, 355, 532nm	10X 20X 50X 80X	M26	10.0-15.1mm	YAG Triple Wavelength Objectives - PFL-UV - NUV-AG YAG 2-Wavelengths Objectives (355 and 532 nm)
Glass-Thickness-Compensated Objectives	These objectives are designed with compensation for cover glass-thickness aberrations, making it possible to realize ideal beam spot size and quality while processing thorough a cover glass. These objective lenses can be used for laser repair processing for LCD or OLED modules.	266, 355, 532, 1,064nm	10X 20X 50X 80X 100X	M26	9.65-30.85mm	UV Objectives-PFL-UV-AG-LC NUV Objectives - PFL-UV-LC NIR Objectives – PFL-NIR-LC
Reflective Objectives	These reflective microscope objective lenses eliminate chromatic aberration over a wide bandwidth from the UV to the MWIR. They are typically used in microscope-spectrometry and failure-analysis applications in the semiconductor industry.	350-7,000nm	10X 20X 50X 40X	M20.32 (RMS)	3.5-16mm	OBLR

Objectifs

Objectifs compensateurs d'épaisseur de verre (0.7 mm and 1.1 mm)

Objectif pour longueur d'onde YAG-3 (266 nm, 355 nm et 532 nm)

Objectif pour longueur d'onde YAG-2 (355 nm et 532 nm)

Objectifs proches-UV (350 nm - 800 nm)

Objectifs Infrarouges (400 nm - 1400 nm)

Objectifs Visibles (400 nm - 750 nm)

Objectifs en réflexion

Lentilles Tubes

Selection Guide for Objective Lenses

Groups

Description

Design Wavelengths

Magnifications

Mounting Thread

Working Distance Range

Objective Families

UV Objectives

Visible Objectives

IR Objectives

Multi-Wavelength YAG Laser Objectives

Glass-Thickness-Compensated Objectives

Reflective Objectives