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Laser Microscopy

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ReflX™ Objectives
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
ReflX™ Objectives
  • Industry Leading 19 to 31mm Working Distance
  • EO Designed and Manufactured for Focusing or Imaging Applications
  • Actively Aligned for Optimal Performance
  • Ultra-Wide Spectral Band from 190nm to 11μm with No Chromatic Aberration
High Performance ReflX™ Objectives
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
High Performance ReflX™ Objectives
  • Diffraction Limited Performance: Transmitted Wavefront of λ/14 RMS
  • Streamlined Tapered Design for Added Clearance at 45° AOI
  • Curved Spider Legs to Reduce Diffraction Effects
  • Industry Leading 24 to 31mm Working Distance
Mitutoyo NIR, NUV, and UV Infinity Corrected Objectives Mitutoyo NIR, NUV, and UV Infinity Corrected Objectives
  • Ideal for Bright Field Imaging in UV, Visible, and NIR Spectral Regions
  • Excellent Performance at Nd:YAG Laser Lines
  • Broad Spectral Ranges
Mitutoyo Infinity Corrected Long Working Distance Objectives Mitutoyo Infinity Corrected Long Working Distance Objectives
  • Long Working Distances
  • Bright Field Inspection
  • High Quality Plan Apochromat Design
  • Flat Image Surface over Entire Field of View
Zinc Selenide Infrared (IR) Focusing Objectives Zinc Selenide Infrared (IR) Focusing Objectives
  • Maximum Coupling Efficiency of Beams up to 5mm
  • Easy Alignment with HeNe Lasers
  • Performance from 2 - 12μm
Adjustable ReflX™ Objectives
TECHSPEC® components are designed, specified, or manufactured by Edmund Optics. Learn More
Clearance
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Adjustable ReflX™ Objectives
  • Units Adjustable for Precision Alignment
  • Various Coating Options Available for Specific Wavelength Ranges
  • Finite Conjugate Design and RMS Threading Integrate Easily in Many Objective Setups

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Laser Optics

Laser Microscopy is used to image samples through the use of focused laser beams. In general Laser Microscopy applications, a sample is scanned by a focused laser beam and the intensity of the reflected beam is converted to a digital image. Confocal microscopy, also known as confocal laser scanning microscopy, offers various advantages over traditional wide-field microscopy, such as enhanced resolution, targeted imaging location, and higher image depth. Common laser microscopy techniques include super-resolution microscopy, fluorescence microscopy, and two- or multi-photon microscopy.

Edmund Optics offers a range of Laser Microscopy objectives in finite and infinite conjugate styles for use with common laser wavelengths, such as those of popular laser diodes or Nd:YAG harmonics. Our TECHSPEC® ReflX™ Objectives are reflective microscope objectives that can efficiently focus laser light without introducing any chromatic aberration. These objectives feature a rugged design to withstand exposure to moderate heat or abrasion and are ideal in applications that range from FTIR spectroscopy to semiconductor inspection. TECHSPEC® High Performance ReflX™ Objectives are also available, providing better peak-to-valley transmitted wavefront and a design that allows for angles of incidence up to 45°. Mitutoyo Objectives, with excellent performance at Nd:YAG harmonics, are ideal for integration into semiconductor inspection or laser cutting applications.


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