Optics

The objective lens of VenusLab microscope is the core imaging component of an optical microscope. It is responsible for collecting the reflected/transmitted light from microscopic samples and converging it to form an image. Working in synergy with the microscope camera, it enables "high-magnification and high-definition microscopic observation".Different from other optical components, it directly determines the imaging resolution and clarity, and serves as a key element in microscopic analysis for biology, materials science, and industrial applications.

Specifically designed for Infinite Conjugate Ratio applicationsSuperior MaterialMinimized Spherical AberrationExtensive SpecificationsBest Cost-Performance RatioCoating Options

UV-Grade Fused Silica (SFS) Plano-Convex LensesPremium SubstratePrecision Surface QualityHigh Damage ThresholdTight Tolerances

General-purpose, cost-effective solution for visible light imaging and focusing.Premium Optical MaterialPrecision Optical SpecificationsRigorous Tolerance ControlVersatile SpecificationsProtective Design Details

Versatile Focusing from UV to NIRPremium MaterialHigh PrecisionTight TolerancesStandard Design

The Standard Solution for Beam Expansion & DivergenceStandard MaterialPrecision GeometrySurface QualityWide Range

The Premier Choice for Deep UV & High-Energy DivergenceSuperior MaterialBroadband TransmissionHigh Damage ThresholdPrecision Specs

The Economical Choice for Symmetrical DivergenceSymmetrical Negative PowerMaterial QualityAberration CorrectionPrecision Specs

Symmetrical Divergence Experts for Deep UVPremium MaterialSymmetrical DesignHigh PrecisionBroadband Usage

A versatile beam-steering solution engineered for high-energy laser systemsWide Angle InsensitivityUltra-High ReflectivityHigh Laser Damage ThresholdSubstrate VersatilitySurface Processing

It is a critical-path solution designed specifically for high-power laser systemsExtreme Reflectivity (R > 99.9%)Market-Leading LIDTUniversal Angle Acceptance (0-45° AOI)Thermal Wavefront StabilityUltra-Low Scatter (10-5 S-D)

The Robust Defense for kW-Class LasersHigh Damage ThresholdQuartz SubstrateHigh ReflectivityPrecision Surface

The Efficient Universal Solution for VIS to NIRSuperior ReflectivityHard Dielectric CoatingBroad RangesCost-Effective

A fiber collimator is a core passive optical device, mainly used to realize bidirectional optical path conversion of "divergent light transmitted in optical fiber → parallel light" or "external parallel light → optical fiber coupled light". It is a key component in fields such as optical communication, laser applications, and spectral analysis to ensure the stability of optical paths and the efficiency of optical energy transmission.

Patchcords are standardized connectivity components designed for short-distance signal transmission between devices, serving as the "neural synapses" of optical and data networks. These pre-terminated cables enable rapid deployment and maintenance, bridging equipment such as switches, routers, spectrometers, and patch panels while minimizing signal loss. Their core value lies in balancing transmission efficiency, mechanical durability, and environmental adaptability across diverse industrial scenarios, from data centers to precision instrumentation.

Making it the ideal choice for constructing compact optical paths and imaging systemsHigh Efficiency Beam DeviatingPremium Optical MaterialPrecision ManufacturingVersatile Coating OptionsMultifunctional Application

A classic dispersive element engineered for high-efficiency wavelength separation and spectroscopic analysisSuperior Dispersion CapabilityOptimized for Minimum DeviationVersatile Material OptionsPrecision Optical Surface

A precision retroreflector designed to reflect light exactly parallel to its source regardless of alignmentAlignment InsensitivityHigh Beam ParallelismWide Acceptance AngleTIR or Coated Options

A precision image rotator designed for collimated lightUnique 2θ Image RotationZero Beam DeviationHigh Surface Quality & ParallelismOptimized for Collimated Light

A precision 90° beam steering element defined by its optical invarianceConstant 90° DeviationNo Image Inversion or ReversionDual-Surface Metallic CoatingsSuperior Angular Accuracy