LENS

A lens is a transmissive optical device that focuses or disperses a light beam by means of refraction.
A simple lens consists of a single piece of transparent material, while a compound lens consists of
several simple lenses (elements), usually arranged along a common axis.

SPHERICAL LENS
- plano-convex
- plano-concave
- biconvex
- biconcave
- meniscus
CYLINDRICAL LENS
- plano-convex cylindrical,
- plano-concave cylindrical,
- square cylindrical
ASPHERICAL LENS
- NIR~Visible
- uncoated / single AR
- BK-7 (plano-convex)
- N-LAH64 (high R.I.)
MLA
- circle, square
- plano-convex
- lens diameter (1um ~ 500um)
- fused silica (200mm WF)

PRISMS

In optics, a prism is a transparent optical element with flat, polished surfaces that refract light.
At least two of the flat surfaces must have an angle between them. The exact angles between the surfaces depend on the application.
The traditional geometrical shape is that of a triangular prism with a triangular base and rectangular sides.
Some types of optical prism are not in fact in the shape of geometric prisms.

DOVE PRISM

Standard Specifications
- Design Wavelength : 546.1 nm · Material : BK7(Grade A fine anneal)
- Surface Flatness : λ/4 ~ λ/10 at 633 nm, all polished surface
- Clear Aperture : Central 85% of edge dimension
- Dimensional Tolerance : ±0.15 mm
- Angular Tolerance : ±3 arcmin
PENTA PRISM

Standard Specifications
- Angular Deviation : ≤ 3 arc minutes
- Material : BK7(Grade A fine anneal), Fused Silica
- Surface Flatness : λ/4 ~ λ/10 at 633 nm, all polished surface
- Clear Aperture : Central 85% of edge dimension
- Beam Deviation: 90° ± 1 arcmin
ROOF PRISM

Standard Specifications
- Angular Tolerance : ± 3 arc minutes
- Material : BK7(Grade A fine anneal)
- Surface Flatness : λ/4 ~ λ/10 at 633 nm, all polished surface
- 90 ° deviation of beam or image
- Surface Quality : 40-20 (scratch – Dig)

MIRROR

Mirrors have a dielectric mirror and the other, metallic mirror. A dielectric mirror is a type of mirror composed of
multiple thin layers of dielectric material, typically deposited on a substrate of glass or some other optical material.
By careful choice of the type and thickness of the dielectric layers, one can design an optical coating
with specified reflectivity at different wavelengths of light.

METALLIC MIRROR (Ag)

Explanation & Specification

Our Ag-coated Mirror is used at a broadband and high-reflectivity offering outstanding performance and durability. Also developing cost sensitive applications. AOI=75° optimized mirror used for our light-tunnel applications and our Ag coating’s is virtually insensitive to polarization and angle of incidence.
- Ravg. 98% 420–680 nm (AOI = 45°)
- Ravg. 97.5% 420–680 nm (AOI = 75°)
METALLIC MIRROR (Au)

Specification
- High reflectivity ≥ 99% (Intensity loss ≤ 0.05 dB)
  Ravg. ≥ 98% at 800–1200 nm
  Ravg. ≥ 99% at 1200–12000 nm
- Low PDL ≤ 0.01 dB
METALLIC MIRROR (Al)

Specification
- Reflectivity
  R ≥ 93.0% abs.500–600nm
  R ≥ 89.0% avg.400–700nm
  AOI= 25°–45°

Filter

Optical filters are devices that selectively transmit light of different wavelengths, usually implemented as plane
glass or plastic devices in the optical path which are either dyed in the bulk or have interference coatings.
The optical properties of filters are completely described by their frequency response, which specifies how
the magnitude and phase of each frequency component of an incoming signal is modified by the filter.

LONG/SHORT WAVE PASS

Specifications

SWPF
- R > 99.5% 1064 nm, 45° S,R > 99.3% 1064 nm, 45° P,T > 90% 532 nm, 45°P
LWPF
- Specs without ARR > 99.8% 1064nm, 45° S,R > 99.5% 1064nm, 45° P
ND FILTER

Explanation

Reduction of light intensity over a large range of wavelength ~ 1/10,000
- metallic, dielectric, multiple assembly, on a absorptions
- power > 2.5*(beam diameter) W or > 10W total may damage the ND filter. The limit is lower for pulsed lasers,
  especially ns. & fs lasers

IR Optics

IR Optics for research, defense and industrial use ranging from
SWIR, MWIR, LWIR, including Ge, Si, ZnSe, ZnS, MgF2, CaF2 materials at IR window, filter, lens.

Ge IR WINDOW

Features
- broad transmission range (2~14μm)
- diamond or DLC coating.
- high temperature dependency (opaque IR)
Si IR WINDOW

Features
- Transmits wavelength range 1.2-7 μm
- Ideal for weight sensitive applications.
- Cheaper than Ge and ZnSe
ZnSe WINDOW,LENS

Features
- High transmission T > 90% at 3-12 μm.
- Low dispersion and low absorption.
- Ideal for thermally demanding environments.
ZnS WINDOW

Features
- Materials : CVD ZnS crystals, IR grade.
- Diameter Range ~ 250mm
- Aperture > 90%
- Surface Quality : 60/40 S/D
- Parallelism : 1 arc minute

Sapphire Component

Our high accurate windows are ideal for application where high pressure, vacuum, corrosive circumstance.
They will be used in until bio-medical, aerospace.
Opticlines’s sapphire lens is manufactured on the optical grade sapphire glass.
They can apply for IR Laser beamsteering optics, imaging optics, focusing optics.

SAPPHIRE WINDOW

Sapphire Window Specifications
- Diameter range less than 5mm to 300mm / · Diameter tolerance better than ± 0.1mm
- Centre thickness up to 50mm / · Centre thickness tolerance better than ± 0.05mm
- Clear aperture 90% / · Centration tolerance better than 1 arc minute
- Form error better than λ/4 (633nm) over aperture
- Surface radius tolerance less than 1 fringe over aperture
- Linear dimension up to 120mm / · Linear tolerance better than ± 0.1mm
- Angular tolerance better than 5 arc minutes / · Edge finish ground, blacked
- Chamfer 0.3x0.3@45° / · Surface quality 40-20 scratch/ dig
- Coatings BBAR coating @1-5μm Diamond-Like Carbon (DLC) coating @1-5μm
SAPPHIRE DOME

Sapphire Dome Features
- SIZE ; Dia.144mm x Thickness 3mm, R1 = 80.00 (+/-0.02), R2 = 77.00 (+/-0.02)
- Characteristic Features ;
  a. Fringe < Lambda(633nm)/2,
  b. S-D : 60-40
  c. TIR < 0.01
  d. Power : 5f

Laser Component

The laser lens is an optical component used for various laser applications
such as beam operation to changethe shape of laser beam,
or fitting the focal point of the laser light or correcting optical errors.

LASER LINE MIRROR

Specification
- High Damage Thresholds 10 J/cm2 532 nm, 20 J/cm2 1064 nm.
- Each Coating Effective from 0º to 45º AOI
LASER MIRROR
Nd : YAG
- HR
- HR + AR
- OC
- ARM/LAUNCH
- Partial Reflector
Er:YAG _2940nm
- HR 0°
- HR 45°
Flow Tube Explanations(size, thickness…)

The recirculating cooling water system, laser systems, a fused silica tube outside the lamp are used as the water pipes,
which of, provided the cerium doped fused silica tubes. It is yellow colored tube, which absorbs and blocks the UV light,
withstanding the high temperature and high energy environment.

φ12x63mm; φ12x72mm; φ12x77mm; φ12x80mm;
φ13x63mm; φ13*65mm; φ13x72mm; φ13x78mm;
φ14x60mm; φ14x80mm; φ16x50mm; φ16*56mm;

Thickness of the tube wall: 1mm.

LENS

SPHERICAL LENS

CYLINDRICAL LENS

ASPHERICAL LENS

MLA

PRISMS

DOVE PRISM

Standard Specifications

PENTA PRISM

Standard Specifications

ROOF PRISM

Standard Specifications

MIRROR

METALLIC MIRROR (Ag)

Explanation & Specification

METALLIC MIRROR (Au)

Specification

METALLIC MIRROR (Al)

Specification

Filter

LONG/SHORT WAVE PASS

Specifications

ND FILTER

Explanation

IR Optics

Ge IR WINDOW

Features

Si IR WINDOW

Features

ZnSe WINDOW,LENS

Features

ZnS WINDOW

Features

Sapphire Component

SAPPHIRE WINDOW

Sapphire Window Specifications

SAPPHIRE DOME

Sapphire Dome Features

Laser Component

LASER LINE MIRROR

Specification

LASER MIRROR

Nd : YAG

Er:YAG _2940nm

Flow Tube Explanations(size, thickness…)