Custom Low-dispersion Optical glass lenses for high-end telescope
optics
Material: Key Properties: Ultra-Low Dispersion (High Abbe Number): Significantly reduces
the separation of light into its component colors (chromatic
aberration) compared to standard optical glass. Precise Refractive Index: Carefully controlled to match
optical design requirements for aberration correction. Exceptional Homogeneity & Clarity: Minimal internal
bubbles, striae, or inclusions to prevent light scatter and ensure
high contrast. Controlled Thermal Expansion: Low coefficient of thermal
expansion (CTE) or specific CTE matching other lens elements/mounts
to maintain performance across temperature ranges. High Transmission: Optimized for maximum light throughput
across the visible spectrum and often into near-UV/IR for
astro-imaging. Custom Spectral Transmission: Can be tailored to enhance
specific wavelength bands (e.g., hydrogen-alpha).
Primary Function: Chromatic Aberration (CA) Minimization: The core function is
to drastically reduce or eliminate false color fringing around
bright objects (like stars, planets, lunar edges) caused by
different wavelengths of light focusing at different points. This
is achieved by having a very low variation in refractive index with
wavelength. Enabling High-Performance Optics: Allows designers to create
lenses (especially apochromatic
(APO) and superachromatic refractors) that bring
multiple wavelengths (typically red, green, blue) to a common focus
point, delivering near-perfect color correction.
Critical Applications: Apochromatic (APO) Refractor Telescopes: Essential core
elements in doublet, triplet, or quadruplet lens designs for
premium refractors. Defines the optical quality tier. Superachromatic Refractors: Pushing color correction beyond
standard APO performance, often using complex combinations of
ED/Fluorite elements. High-End Telescope Objectives & Correctors: Used in
complex systems like astrographs, advanced binoculars, and spotting
scopes demanding ultimate clarity. Planetary & Lunar Telescopes: Where maximum contrast and
resolution are paramount, requiring minimal CA. Astrophotography: Crucial for capturing sharp, color-accurate
deep-sky and planetary images without chromatic artifacts ruining
long exposures. Premium Instrumentation: Found in top-tier brands like
Takahashi, Astro-Physics, TEC, Stellarvue, LZOS, and high-end
models from Celestron, Meade, Explore Scientific, etc.
Summary: Custom low-dispersion optical glass lenses (ED, Fluorite, specialized crowns/flints) are the cornerstone of
high-end refracting telescope optics. Their unique material
properties, specifically ultra-low dispersion and high homogeneity,
function to virtually eliminate chromatic aberration. This enables
the creation of apochromatic and superachromatic telescopes
renowned for delivering unparalleled sharpness, contrast, and true
color fidelity, making them essential for discerning visual
observers and serious astrophotographers seeking the ultimate
celestial views and images.
| Material | Optical glass, Qurartz glass, Pyrex, borosilicate glass, Float
glass | | Diameter Tolerance | +0/-0.15 mm | | Thickness Tolerance | +/-0.15mm | | Processed | by grinding, polishing | | Surface Quality | 80/50,60/40,40/20 | | Material Quality | no scratches and air bubble | | Transmission | above 90% | | Chamfer | 0.1-0.5 mm x 45° | | Surface Coating | Available | | Usage | Photography, Optics |
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