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[Sell] Fused Sillica Windows |
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Fused Sillica Windows Fused silica is formed by chemical combination of silicon and oxygen. Advantages of fused silica material include good UV and IR transmission, low thermal expansion, providing stability and resistance to thermal shock over large temperature excursions, wider thermal operating range and high laser damage threshold. Used for windows, lenses, prisms and mirror substrates. Specifications: Material: UV grade Fused Silica Dimension Tolerance: +0.0, -0.1mm Thickness Tolerance: ± 0.1mm Surface quality: 60/40(Standard), 10/5(High Precision) Clear Aperture: >85% Flatness: λ(Standard), λ/10(High Precision) per 25mm@633nm Parallelism: 1' (Standard), 10" (High Precision) Bevel: <0.25mm X 45° Coating: Upon requirement Typical Sizes: Round Shape Diameter(mm): Φ5.0;Φ10.0 ;Φ12.7;Φ15.0;Φ20.0; Φ25.4;Φ30.0;Φ38.1;Φ50.8;Φ76.2 Square Shape: WxH(mm) 5.0x5.0 ;10.0x10.0 ;15.0x15.0 ; 20.0x20.0;25.0x25.0;50.0x50.0 Thickness(mm): 0.5;1.0;1.5;2.0;3.0; 4.0;5.0;6.0;8.0;10.0 How to order Windows? Example: Material:N-BK7 Diameter:Φ25.4+0.0/-0.1mm Thickness:1.0±0.1mm Surface quality: 60-40 S/D Flatness: λ/2 per 25mm @633nm Paralelism: <1 arc minute Coating:Both side AR,R<0.25% @1064nm, AOI=0° Beamsplitter Cubes Beamsplitter Plates Polarization Beamsplitters Beam Splitting coating Dielectric High Reflection Coating Dual-Wavelength Anti-reflection coating Metallic High Reflection Coating Multilayer Broadband Anti-reflection Coating MultiLayer Sharp “V” Anti-reflection coating Partial Reflection Coating Single Layer MgF2 Anti-reflection Coating Cr4+YAG Crystal KTP crystal Nd YAG Crystal Bandpass Filters Birefringent Filters Colored glass Filters Achromatic Lenses(Doublets) Ball Lenses Bi-Concave Lenses Bi-Convex Lenses Meniscus Lenses Plano-Concave Cylindrical Lenses Plano-Concave Lenses Plano-convex Cylindrical Lenses Plano-Convex Lenses Powell Lenses Rods Lenses(Light pipes) B-270 BK7 Glass Float Glass Fused Silica Dielectric Mirrors Hot&Cold Mirror Metallic Coated Mirrors (Al, Ag, Au) Corner retroreflectors(Corner Cube Prisms) Dove Prisms Equilateral Dispersing Prisms Penta Prisms Right Angle Prisms Special prisms Wedge Prisms Multiple order Waveplates True Zero order Waveplates Zero order Waveplates BK7 Windows CaF2 Windows Fused Sillica Windows Ge Windows MgF2 windows Sapphire Windows Si Windows optical windows optical lenses optical prisms optical beamsplitters optical mirrors optical filters optical waveplates optical crystals optical coating
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» Electronics & Electricals/Components |
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[Sell] Multiple order Waveplates |
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Multiple order Waveplates Multiple order waveplates(Low Order Waveplate) are made from a single crystalline plate, are designed to give a retardation of several full waves, plus the desired fraction.Multiple order waveplates are more susceptible to change in wavelength and they should not be used more than several nanometers outside of design wavelength. Specifications: Type: Half Waveplates Quarter Waveplates Material: Crystal Quartz Dimension Tolerance: +0.0, -0.1mm Surface quality: 20/10 Clear Aperture: >90% Wavefront Distortion: λ/8@632.8nm Parallelism: <1 arc sec Retardation tolerance: λ/300 Coating: AR/AR coating ,R<0.2% at central wavelength Standard wavelengt: 266nm, 355nm,532nm, 632.8nm, 780nm,808nm, 850nm, 980nm,1064nm, 1310nm, 1480nm, 1550nm Typical Sizes: Size(mm) Size(mm) Φ5.0 φ20.0 φ10.0 φ25.4 Φ12.7 φ30.0 Φ15.0 φ38.1
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» Building & Construction/Other |
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[Sell] Dove Prisms |
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Dove Prisms Dove Prism has two applications. The main application is used as a rotator. It can rotate an image but without deviating the beam. And when the prism is rotated about the input parallel ray through some angle, the image rotates through twice that angle. It is very important that the application must be used with parallel or collimated beam and the large square reflective surface should be kept very clean. Another application is used as a retroreflector. For this application it perform as a right-angle prism. Specifications: Material: N-SF11 Dimension Tolerance: +0.1, -0.1mm Surface quality: 60-40 S/D Surface flatness: λ/2 @ 632.8nm Angle Tolerance: ±3 arc min Clear Aperture: >85% of dimension Bevel: <0.25mm×45 Coating: Upon requirement Typical Sizes: A(mm) B(mm) H(mm) 21.1 5.0 5.0 42.3 10.0 10.0 63.4 15.0 15.0 Other sizes and shapes are available.
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» Building & Construction/Stone & Cement |
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[Sell] Dielectric Mirrors |
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Dielectric Mirrors Dielectric Mirrors offer near total reflection, minimizing losses in nearly all optical systems. These coatings are very durable, easily cleaned, and resistant to laser damage. Available either broadband or narrowband, they operate efficiently over 0–45°angle of incidence: AOI=0°, R>99.8%; AOI=45°, R>99.5% (Rs>99.9%, Rp>99.2%). Specifications: Material: N-BK7 or UV Fused Silica Dimension Tolerance: +0.0, -0.1mm Thickness Tolerance: ± 0.1mm Surface quality: 60/40(Standard), 10/5(High Precision) Clear Aperture: >85% Flatness: λ/4 per 25mm@633nm Parallelism: <1' Bevel: <0.25mm X 45° Coating: One surface(S1) :HR @ design wavelength The other surface :uncoated Typical Sizes: Size(mm) Size(mm) Φ5.0x1.0 10.0x10.0x3 φ10.0x2.0 20.0x20.0x3 Φ12.7x2.0 25.4x25.4x3 Φ15.0x3.0 30.0x30.0x5 other sizes and shapes are available.
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» Electronics & Electricals/Components |
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[Sell] Ball Lenses |
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Ball lenses are commonly used for laser collimating and focusing, laser-to-fiber coupling, fiber-to-fiber coupling, and fiber-to-detector coupling. Larger spheres are easier to handle and ease the sensitivity of translational alignment. However, smaller spheres fit into smaller packages. Coupling efficiency is generally >90% due to the simplicity of these lenses. Specifications: Material: N-BK7 grade A optical glass Dimension Tolerance: +0.0, -0.03mm Surface quality: 60/40 Clear Aperture: >85% Surface Figure: λ/2 @633nm Centration: 3 arc minutes Note: Diameter: available from Φ1.0mm to Φ25mm All surfaces polished
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» Building & Construction/Materials |
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[Sell] Achromatic Lenses(Doublets) |
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Lenses have many applications in range from the simple collection of the scanning of laser beams to precise imaging and image transferring. Achromatic (Doublets)Lenses Achromat consists of a positive low-index Crown Glass lens element cemented to a negative high-index Flint Glass lens element. The elements are chosen so as to cancel chromatic aberration at two well-separated wavelengths, usually in the blue and red region of the spectrum. Focal length is constant at those two wavelengths and focal length shifts are virtually eliminated across the visible wavelengths. One frequent use is to achieve diffraction limited focusing of a laser beam. Negative Achromat is typically used when there is a need to eliminate chromatic aberration. In addition to reducing chromatic aberration at the design wavelengths, spherical aberration and coma are greatly reduced. Specifications: Material: Grade A optical glass or Fused Silica Dimension Tolerance: +0.0, -0.1mm Center Thickness Tolerance: ±0.1mm Paraxial Focal Length: ±2% Surface quality: 60/40 Clear Aperture: >85% Surface Figure: λ/4 @633nm Centration: 3 arc minutes Bevel: <0.25mm×45° Coating: Upon requirement Typical Sizes Material N-BK7&N-SF5 ALP001 6.0 15.0 8.831 -6.55 -19.77 2.71 1.0 13.07 ALP002 6.0 20.0 12.36 -8.51 -24.38 2.6 1.0 18.29 ALP003 6.0 25.0 15.70 -10.67 -29.99 2.3 1.0 23.46 ALP004 6.0 30.0 18.88 -12.94 -36.48 1.9 1.0 28.69 ALP005 8.0 25.0 15.60 -10.81 -30.48 2.9 1.0 23.13 ALP006 8.0 30.0 18.88 -12.88 -36.22 2.7 1.0 28.28 ALP101 10.0 20.0 12.32 -9.02 -25.23 3.8 1.0 17.63 ALP102 12.0 25.0 15.35 -11.35 -31.92 4.2 1.3 22.29 ALP103 12.7 30.0 18.54 -13.49 -37.84 4.0 1.3 27.36 ALP104 12.7 40.0 25.23 -17.54 -48.75 3.4 1.3 37.78 ALP105 12.7 50.0 31.26 -21.93 -62.37 3.1 1.3 47.99 ALP106 12.7 60.0 37.33 -26.42 -75.86 2.8 1.3 58.13 ALP107 12.7 75.0 46.77 -32.96 -94.62 2.6 1.3 73.23 ALP108 13.0 40.5 25.41 -18.07 -50.47 3.0 1.3 38.48 ALP109 14.0 44.0 27.54 -19.54 -54.95 3.3 1.3 41.83 ALP110 18.0 40.0 24.27 -18.37 -53.09 5.4 1.5 36.51 ALP111 18.0 50.0 31.69 -22.00 -60.57 4.8 1.5 46.99 ALP112 18.0 60.0 37.84 -26.49 -73.79 4.1 1.5 57.30 ALP201 25.4 60.0 37.33 -27.16 -75.86 7.0 2.0 55.57 ALP202 25.4 120.0 73.28 -54.33 -159.9 4.2 2.0 117.1 ALN101 12.7 -25.0 -15.28 13.37 39.17 1.5 2.5 -26.61 ALN102 12.7 -30.0 -24.72 19.10 56.10 1.5 2.5 -41.56 ALN201 25.4 -40.0 -29.79 26.85 82.41 2.0 4.3 -52.66
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» Arts & Furniture/Furniture |
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[Sell] Colored glass Filters |
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Cut-off type colored optical filter glass The glass is named based on spectral characteristic of which is represented by the wavelength transmission limit. For example, if the transmission limit of glass is 490nm,then it is named as JB490.There are five groups and 35types glasses. Selective absorption colored optical filter glass This part of the glasses can be divided into 14 kinds and 78 types based on the color and application in this catalogue. The types are arranged in accordance with serial numbers, which have no special meaning. Neutral filter glass They are named based on the average transmissivity characteristics in 400nm to 700nm wavelength with 2mmthick sampler is 70%,then it's named as ZAB70.And there are ten types of glasses in this part. But three types of them(ZAB65,ZAB30,ZAB5)are tested in 440nm-660nm wavelength. Specifications: Material: Color glass Dimension Tolerance: +0.0, -0.2mm Thickness Tolerance: ±0.2mm Surface quality: 80/50 Clear Aperture: >85% Flatness: 1 λ per 25mm@633nm Parallelism: ±3' Bevel: <0.25mm X 45° Coating: Upon requirement Typical Sizes: Size(mm) Size(mm) Φ5.0x1.0 Φ20.0x3.0 φ10.0x2.0 Φ25.4x3.0 Φ12.7x2.0 Φ50.8x3.0 Φ15.0x3.0 Φ76.2x5.0 Other sizes and shapes are available.
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» Electronics & Electricals/Components |
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[Sell] Birefringent Filters |
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Birefringent filter is made by crystal quartz. It's used in the laser cavity for wavelength selection. We can provide different thickness birefringent filter for our customer's laser applications. Specifications: Material: Crystal quartz Dimension Tolerance: +0.0, -0.2mm Thickness Tolerance: ± 0.02mm Surface quality: 20/10 Clear Aperture: 90% of the central area Parallelism: <5 arc sec
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» Electronics & Electricals/Components |
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[Sell] Bandpass Filters |
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Bandpass filter plate are divided into short-pass and long-pass filters according to whether they transmit below or above the transition wavelength. The transition wavelength or cut-on/off wavelength is the wavelength at which the transmission is 50% of its peak value. Specifications: Material: N-BK7 ;Fused silica Dimension Tolerance: +0.0, -0.1mm Thickness Tolerance: ±0.1mm Surface quality: 60/40 Clear Aperture: >85% Parallelism: λ /4 per 25mm@633nm Bevel: ±3' Coating: One surface(S1) :HR & HT The other surface(S2):Upon requirement
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» Electronics & Electricals/Components |
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[Sell] Nd: YAG Crystal |
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Neodymium Doped Yttrium AIuminum Garnet (Nd: YAG) Crystal Nd: YAG crystal is the most widely used solid-state laser material today. Now, we are able to stably supply quantity of Nd: YAG rods with high optical homogeneity, consistent performance, high processing accuracy and on time delivery. 1. Basic Properties (1.0 atm% Nd doped) Chemical Formula Nd:Y3Al5O12 Crystal Structure Cubic Lattice Constants 12.01 Å Concentration ~ 1.2 x 1020 cm-3 Melting Point 1970 oC Density 4.56 g/cm3 Mohs Hardness 8.5 Refractive Index 1.82 Thermal Expansion Coefficient 7.8 x 10-6 /K [111], 0 - 250 oC Thermal Conductivity 14 W/m /K @20 oC, 10.5 W /m /K @100 oC. Lasing Wavelength 1064 nm Stimulated Emission Cross Section 2.8x10-19 cm-2 Relaxation Time of Terminal Lasing Level 30 ns Radiative Lifetime 550 ms Spontaneous Fluorescence 230 ms Loss Coefficient 0.003 cm-1 @ 1064 nm Effective Emission Cross Section 2.8 x 10-19 cm2 Pump Wavelength 807.5 nm Absorption band at pump wavelength 1 nm Linewidth 0.6 nm Polarized Emission Unpolarized Thermal Birefringence High 2. Standard Products specification Dopant Concentration (atomic %): 0.9%~ 1.1% Orientation: <111> crystalline direction (±5o) Wavefront distortion:l/8 per inch, measured by a double-pass interferometer @ 633 nm Extinction Ratio: Rods with diameter from 3 mm to 6.35 mm and with length to 100 mm:>30dB Rods with diameter from 7 mm to 10 mm and with length to 100 mm:>28dB Dimension Tolerances Rods with diameter: ±0.025 mm (±0.001"), Length: ±0.5 mm (±0.02") Barrel Finish:50 80 micro-inch (RMS) , grooved rod barrel are also available Ends Finish: Surface Figure: <l/10 @ 633 nm Parallelism: < 10 arc seconds Surface quality:< 5 arc minutes Clear Aperture: > 10/5 Scratch / Dig per MIL-O-1380A chamfer:<0.1 mm @ 45° clear Aperture: extend over the entire faces to the chamfered edges Anti-Reflection Coating: Single layer MgF2 coating with high damage threshold for high power laser operation. Reflectivity R < 0.25% @ 1064 nm per surface. Damage threshold over 750 MW/cm2@ 1064nm, 10 ns and 10 HZ. High-Reflection Coating: Standard HR coating with R>99.8% @ 1064nm and R<5% @ 808nm can be performed in WTS. Other HR coatings, such as HR @ 1064/532 nm, HR @ 946nm, HR 1319 nm and other wavelengths are also available. Standard products in-stock: The standard Nd: YAG laser rod with dimension of f3x5 mm and f4x50 mm with AR or HR- coating for Diode Pumped Solid State Lasers (DPSS) are ready for immediate delivery. For more information about standard Nd: YAG rods please refer to page 62 of Diode Pumped Laser Optics Kits. Note:Higher grade or specific Nd: YAG rods or slabs are also available upon request.
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» Electronics & Electricals/Components |
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[Sell] KTP crystal |
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Potassium Titanyl Phosphate (KTiOPO4 or KTP) Advantages: Large Nonlinear Optical (NLO) Coefficients Wide Angular Bandwidth and Small Walk-off Angle Broad Temperature and Spectral Bandwidth High Electro-Optic (E-O) Coefficient and Low Dielectric Constant Large Figure of Merit for an Optical Waveguide Modulator Nonhygroscopic, Good Chemical and Mechanical Properties Applications: Frequency Doubling (SHG) of Nd-doped Lasers for Green/Red Output. Frequency Mixing (SFM) of Nd Laser and Diode Laser for Blue Output. Parametric Sources (OPG, OPA and OPO) for 0.6mm-4.5mm Tunable Output. E-O Modulators, Optical Switches, Directional Couplers. Optical Waveguides for Integrated NLO and E-O Devices. DND Provides: Standard size of KTP crystal for DPSS application; Strict Quality Control; 2 - 3 Weeks Delivery; Unbeatable Price and Special OEM Discount; Free Technical Support; AR-Coating, Mounting and Re-polishing Service; Mass Production to Support Industrial and Commercial Applications; New: Precision Oven εt Temperature Controller for Heating KTP. Basic Properties 1. Structural and Physical Properties Crystal Structure Orthorhombic, point group mm2 Cell Parameters a = 6.404Å, b = 10.616Å, c = 12.814Å Z = 8 Melting Point 1172 oC Incongruent Curie point 936 oC Mohs Hardness » 5.0 Density 3.01g/cm3 Linear Absorption Coefficients a <0.001 cm-1 @ l =1064 nm or 532 nm Hygroscopic Susceptibility no Relative Dielectric Constant eeff=13 Specific heat 0.1643 cal/g.oC Electrical conductivity 3.5x10-8 s/cm (c-axis, 22oC, 1KHz) Thermal Conductivity 13W/m/K 2. Linear Optical Properties Transparency Range: 350 - 4500 nm, See Transparency Curve KTP Transparency Curve Refractive Indices: Wavelength nx ny nz 1064 nm 1.7377 1.7453 1.8297 532 nm 1.7780 1.7886 1.8887 Therm-Optic Coefficients: dnx/dT=1.1x10-5/oC dny/dT=1.3x10-5/oC dnz/dT=1.6x10-5/oC Sellmeier Equations: n2x=3.0065+0.03901/(l2-0.04251)-0.01327l2 n2y=3.0333+0.04154/(l2-0.04547)-0.01408l2 n2z=3.3134+0.05694/(l2-0.05658)-0.01682l2 3. NonLinear Optical Properties Phase-Matchable Output Range: 492- 1700 nm NLO Coefficients: d31=2.54pm/V, d32=4.35pm/V, d33=16.9pm/V d24=3.64pm/V, d15=1.91pm/V at 1064 nm deff(II)» (d24 - d15)sin2fsin2q - (d15sin2f + d24cos2f)sinq Electro-Optic Coefficients: Low Frequency (pm/V) High Frequency(pm/V) g13 9.5 8.8 g23 15.7 13.8 g33 36.3 35.0 g51 7.3 6.99 g42 9.3 8.8 Applications for SHG and SFG of Nd: lasers KTP is the most commonly used material for frequency doubling of Nd: YAG lasers and other Nd-doped lasers, particularly at the low or medium power density. The following Table lists the major NLO properties of KTP for frequency-doubling of Nd: YAG laser. PM angle q=90o, f=23.5o, where q & f are polar angles referring to Z and X. Effective SHG coefficient deff » 8.3xd36(KDP) Angular acceptance 20 mrad-cm Temperature acceptance 25oC-cm Spectral acceptance 5.6 Å-cm. Walk-off angle 4.5mrad (0.26o) Optical damage threshold > 450MW/cm2, (@ 1.06mm, 10ns, 10Hz) To date, extra- and intra-cavity frequency doubled Nd: lasers using KTP have become a preferred green laser source for many R&D, medical, industrial and commercial applications. By using extracavity KTP SHG, over 80% conversion efficiency and 700mJ green laser were obtained with a 900 mJ jection-seeded Q-switched Nd: YAG laser. Type II SHG in XY Plane Type II SHG in XZ Plane Applied to diode-pumped Nd: laser, KTP is a basic NLO crystal for the construction of compact visible solid state laser systems. Recent advances in intracavity-doubled Nd: YVO4 and Nd: YAG lasers have increased the demand for compact green lasers used in display, construction, optical disk and laser printer. Over 200 mw TEM00 green outputs are available from LD pumped Nd: YVO4 and Nd: YAG lasers and 3 W TEM00, mode-locked green laser was generated by intracavity SHG in a 5 |
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» Electronics & Electricals/Components |
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[Sell] Cr4+:YAG Crystal |
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Chromium Doped Yttrium Aluminum Garnet Cr4+:YAG Crystal A High Power, Solid State and Compact Passive Q-switch Passive Q-Switching is preferred for simplicity of manufacturing and operation, low cost and reduced system size and weight. Cr4+: YAG (Y3Al5O12) is an excellent crystal for passively Q-switching diode pumped or lamp-pumped Nd: YAG, Nd: YLF, Yb: YAG or other Nd and Yb doped lasers at wavelength from 1.0 to 1.2 mm. Because of its chemically stable, durable, UV resistant, good thermal conductivity and high damage threshold (> 500 MW/cm2) and being easy to be operated, it will replace traditional materials, such as, LiF, organic Dye and color centers. Basic Properties of Cr4+:YAG Formula Cr4+:Y3Al5O12 Crystal Structure Cubic Garnet Dopant Level 0.5 mol% ~ 3 mol% Hardness 8.5 (Mohs) Damage Threshold > 500 MW/cm2 Refractive Index 1.82 @ 1064 nm Main Specifications Flatness < λ/8 Wavefront Distortion λl/4 Parallelism < 30” Surface quality 20/10 scratch/dig AR-coating R<0.2% @ 1064 nm Standard Aperture 3X3 ~ 10X10 mm AR-coatings and HR-coatings are also available. We can control the initial transmission (To) from 10% to 95% according to customer’s requirements. The preliminary experiments of WTS's Cr4+: YAG showed that the pulse width of passively Q-switched lasers could be as short as 9 ns for diode pumped Nd: YAG lasers and repetition as high as 10 kHz for diode pumped Nd: YVO4 lasers. Furthermore, an efficient green output at 532 nm, and UV output at 355 nm and 266 nm were generated, after a subsequent intracavity SHG in KTP for diode pumped and passive Q-switched Nd: YAG and Nd:YVO4 lasers. Cr4+: YAG is also a laser crystal with tunable output from 1.35 mm to 1.6 mm. It can generate ultrashort pulse laser (to fs pulsed) when pumped by Nd: YAG laser at 1.064mm. Note: When ordering Cr4+: YAG crystal, please specify the aperture, initial transmission (To) and coatings.
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» Electronics & Electricals/Components |
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[Sell] Single Layer MgF2 Anti-reflection Coating |
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Magnesium fluoride(MgF2) is probably the most widely used thin film material for optical coatings. Its performance is not outstanding but represents a significant improvement over an uncoated surface. It is the most commonly used, low-cost anti-reflection coating, and widely used in Lens & Prism, Input & output surface.
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» Electronics & Electricals/Components |
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[Sell] Partial Reflection Coating |
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Single Wavelength Partial Reflective Coating When a narrow wavelength radiation is incident on Single wavelength partial reflective coating, part of the radiation is reflected and the other part is transmitted. This coating always show a high reflectivity for S-polarization radiation and high transmission for P-polarization radiation. The main application of this coating is for a beamsplitter with 45 angle of incidence. It is the most commonly used, low-cost anti-reflection coating, and widely used in Lens & Prism, Input & output surface. Broadband Wavelength Partial Reflective Coating Broadband Wavelength Partial Reflective coating has similar performance to that of Single Wavelength Partial Reflective coating. However, Broadband Wavelength Partial Reflective coating can split the incident radiation over a wide spectrum, not Single Wavelength Partial Reflective. It can be widely used to split the incident radiation over a wide spectrum.
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» Electronics & Electricals/Components |
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[Sell] MultiLayer Sharp “V” Anti-reflection coating |
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It can reach the lowest reflectivity at a center wavelength, and is widely used in single laser wavelength or multiple, closely spaced wavelength system.
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» Electronics & Electricals/Components |
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[Sell] Dielectric High Reflection Coating |
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Dielectric coating can produce very high reflection (more than 99.8% at designed wavelength), minimizing losses in nearly all optical systems and is very durable, easily cleaned, and resistant to laser damage. They are commonly used in a single wavelength laser cavity where the lowest cavity loss at a center wavelength is essential. Center wavelength range from 250nm to 2200nm for Dielectric High Reflective Coatings.
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» Agriculture & Farm/Fruits |
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[Sell] Beam Splitting coating |
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Laser Line Polarization Beam Splitting Coating This coating can generate special high reflectance to S-polarization and high anti-reflection to P-polarization for laser application.It can achieve nearly 100% reflectance to S-polarization and 100% transmission for P-polarization on a narrow wavelength range.Therefore,its main application is to be used as polarizing beam splitter for single wavelength laser system when it is deposited on glass substrate, but its extinction ratio is so high. Broadband Polarization Beam Splitting Coating This coting has similar application with laser line polarization beam splitting coating ,but it can be used for a wide wavelength rang.
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» Building & Construction/Real Estate |
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[Sell] Polarization Beamsplitters |
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Polarization beamsplitter cubes are constructed by cemented two right angle prisms, the hypotenuse of one prism is coated with polarization dielectric coating. When used with normal incident, un-polarized light, the incident beam is separated into two polarized beams, p-polarized component is passed straight through, s-polarized component is reflected out at 90deg. Specifications: Material: BK7 grade A optical glass Dimension Tolerance: +0.2, -0.2mm Thickness Tolerance: ±0.2mm Surface quality: 60/40 Clear Aperture: >85% Flatness: λ/4 per 25mm@633nm Parallelism: ±3' Bevel: <0.25mm X 45° Coating: Hypotenuse surface :Polarization dielectric coating , Entrance/Exit surfaces :AR coating 1.Laser line (Extinction Ratio 500:1) ,AOI= 0°: Tp>96% and Ts<0.2% Rp<4% and Rs>99.7% 2.Broadband wavelength (Extinction Ratio: 200:1) ,AOI= 0°: Tp>95% and Ts<0.5% Rp<5% and Rs>99.5% Typical Sizes: Size(mm) Size(mm) 5.0x5.0x5.0 18.0x18.0x18.0 10.0x10.0x10.0 20.0x20.0x20.0 12.7x12.7x12.7 25.4x25.4x25.4 15.0x15.0x15.0 30.0x30.0x30.0
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» Arts & Furniture/Pictures |
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[Sell] Beamsplitter Plates |
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Beamsplitter Plates : can be used with high power laser. When using beamsplitter plates, it is important to bear in mind that the two partial beams travel different optical paths. And the optical paths depend on the incident angle and the thickness of plates. Specifications: Material: BK7 grade A optical glass Dimension Tolerance: +0.2, -0.2mm Thickness Tolerance: ±0.2mm Surface quality: 60/40 Clear Aperture: >85% Flatness: λ/4 per 25mm@633nm Parallelism: ±1\' Bevel: <0.25mm X 45° Coating: Front surface (S1) :Partial reflective coating Back surface (S2) :AR coating Reflectance/Transmittance R/T=50/50% ±5% ; Other ratio is available ( R,T are the average of S- and P-pol) ,AOI= 45° Typical Sizes: Round Shape: Diameter(mm) Φ5.0;Φ10.0 ;Φ12.7;Φ15.0;Φ20.0 ; Φ25.4;Φ30.0;Φ38.1;Φ50.8;Φ76.2 Square Shape: WxH(mm) 5.0x5.0 ;10.0x10.0 ;15.0x15.0 ; 20.0x20.0;25.0x25.0;50.0x50.0 Thickness(mm) 1.0;1.5;2.0;3.0; 4.0;5.0;6.0;8.0;10.0 Other sizes and shapes are available.
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» Building & Construction/Real Estate |
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[Sell] Beamsplitter Cubes |
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Beamsplitter Cube is a more sophisticated type consisting of two right- angle prismscemented together at their hypotenuse faces.The cemented face of one prism is coated.Before cementing, with a metallic or dielectric layer having the desired reflecting properties, both in the percentage of reflection and the desired color. The absorption loss to the coating is minimal and transmission and reflection approach 50%. Specifications: Material: BK7 grade A optical glass Dimension Tolerance: +0.2, -0.2mm Thickness Tolerance: ±0.2mm Surface quality: 60/40 Clear Aperture: >85% Flatness: λ/4 per 25mm@633nm Parallelism: ±3' Bevel: <0.25mm X 45° Coating: Hypotenuse surface :Partial reflective coating Entrance/Exit surfaces :AR coating Reflectance/Transmittance R/T=50/50% ±5% ; Other ratio is available ( R,T are the average of S- and P-pol) ,AOI= 0° Typical Sizes: Size(mm) Size(mm) 5.0x5.0x5.0 18.0x18.0x18.0 10.0x10.0x10.0 20.0x20.0x20.0 12.7x12.7x12.7 25.4x25.4x25.4 15.0x15.0x15.0 30.0x30.0x30.0
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» Electronics & Electricals/Components |
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