Components Selection Guide

Components Selection Guide Optical ComponentS Cleaning Instructions See page A.3 See page Femtoline Optics 4. 4. Laser Mirrors 4. Dual Line Laser Mirrors 4.4 Broadband Ultrafast Ti:Sapphire Laser Mirrors 4.5 Laser Harmonic Separators 4.6 Laser Output Couplers 4.7 Laser Rear Mirrors 4.8 Laser Beamsplitters 4.1 AR Coated Lens Kits 4.1 Thin Film Laser Polarizers 4.13 Zero Order Optically Contacted Plates 4.15 Zero Order-Air Spaced Plates 4.15 Zero Order Dual Wavelength Plates 4.16 Low Oder Plates 4.16 Multiple Order Dual Wavelength Plates 4.17 Polarization Plane Rotators 4.17 Group Velocity Delay (GVD) Compensation Plates Variable Attenuator for Femtosecond Linearly Polarized Laser Pulses 99-7, -71 See page Femtoline Crystals 4.1 4.8 Ti:Sapphire Laser Line and Harmonics 4.1 Thin BBO Crystals for SHG and THG of Ti:Sapphire Laser Wavelength 4. Third Harmonic Generation of Ti:Sapphire Laser Kits 4.5 Thin AgGaS Crystals for DFG.5-1.3 µm 4.6 4.18 4.19 Yb:KGW and Yb:KYW Crystals Laser Lines and Harmonics 4.7 BBO and LBO Crystals for SHG of Yb:KGW/KYW Laser Frequency Conversion 4.8 4.1 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

FemtoLine Laser Optics Laser Mirrors Laser mirrors for femtosecond applications are designed to have a broad operating wavelength range and linear phase versus frequency characteristics (low reflectance group delay dispersion (GDD)). The coating is a single layer dielectric and has no phase shift over the operating wavelength region. High reflectivity mirrors always have higher reflection, broader operating region and lower pulse distortion for s-polarization than for p-polarization for the same dielectric coating. If possible use the mirrors with s-polarized beam. Our standard mirrors are suitable for fundamental Ti:Sapphire and Yb:KGW or KYW lasers and their doubled, tripled or quadrupled frequencies. UV grade fused silica or BK7 glass S1 Surface Flatness λ/1 at 633 S1 Surface Quality 1 scratch & dig laser quality S Surface Quality Coercial polish Diameter Tolerance +. -.1 Thickness Tolerance ±.5 Wedge < 3 min Chamfer.3 at 45 typical Technology Electron beam multilayer dielectric Adhesion and Durability Per MIL-C-675A. Insoluble in lab solvents Clear Aperture Exceeds central 85% of diameter Hard dielectric High Reflection R>99.5% Angle of Incidence 45±3 Designed for average polarization R=(R s +R p )/ Laser Damage Threshold >1 mj/cm, 5 fsec pulse, 8 typical Coated Surface Flatness λ/1 at 633 over clear aperture Laser Line Wavelength material: BK7 grade A Reflection, % Reflectance GDD, fs 1 8 6 4 4-4 -8 Polarization s p 36 38 4 4 44 46 HR>99,5%@38-4, AOI=45 8 Polarization 36 38 4 4 44 HRsp@38-4 GDD, AOI=45 s p Diameter 1.7 Thickness T, R, % (s+p)/ Catalogue number 38-4 3. 99.5 31-4 57 5-53 3. 99.5 31-515 56 76-84 3. 99.5 31-8 61 1-16 3. 99.5 31-13 61 Diameter 5.4 Thickness T, R, % (s+p)/ Catalogue number 38-4 6. 99.5 3-4 89 5-53 6. 99.5 3-515 74 76-84 6. 99.5 3-8 85 1-16 6. 99.5 3-13 75 Diameter 5.8 Thickness T, R, % (s+p)/ Catalogue number 38-4 8. 99.5 35-4 133 5-53 8. 99.5 35-515 11 76-84 8. 99.5 35-8 133 1-16 8. 99.5 35-13 11 Diameter 76. Thickness T, R, % (s+p)/ Catalogue number 38-4 1.7 99.5 37-4 199 5-53 1.7 99.5 37-515 185 76-84 1.7 99.5 37-8 199 1-16 1.7 99.5 37-13 185 Visit www.eksmaoptics.com for new products and prices 4.

Laser Line Wavelength material: UV Grade Fused Silica Reflection, % Reflectance GDD, fs 1 8 6 4 4-4 -8 46 48 5 5 54 56 58 6 HR>99.5%@5-53, AOI=45 8 Polarization 46 48 5 5 54 56 58 HRsp@5-53 GDD, AOI=45 Housing accessories Adapter for Mirror at 45º 84-115 See page 7.8 Polarization s p Recoended for high power laser applications operating in UV region. For Nd:YAG laser applications we offer Laser Line and Dual Laser Line Mirrors See page 3.3 s p Reflection, % Reflectance GDD, fs 1 8 6 4 7 74 78 8 86 9 4-4 -8 Diameter 1.7 Thickness T, R, % (s+p)/ Catalogue number 57-75 3. 99. 41-66 81 333-353 3. 99.5 41-343 77 38-4 3. 99.5 41-4 75 5-53 3. 99.5 41-515 74 76-84 3. 99.5 41-8 75 1-16 3. 99.5 41-13 75 Diameter 5.4 Thickness T, R, % (s+p)/ Catalogue number 57-75 6. 99. 4-66 111 333-353 6. 99.5 4-343 17 38-4 6. 99.5 4-4 11 5-53 6. 99.5 4-515 91 76-84 6. 99.5 4-8 97 1-16 6. 99.5 4-13 9 Diameter 5.8 Thickness T, R, % (s+p)/ Catalogue number 57-75 8. 99. 45-66 7 333-353 8. 99.5 45-343 187 38-4 8. 99.5 45-4 181 5-53 8. 99.5 45-515 169 76-84 8. 99.5 45-8 181 1-16 8. 99.5 45-13 169 Diameter 76. Thickness T, R, % (s+p)/ Catalogue number 57-75 1.7 99. 47-66 9 333-353 1.7 99.5 47-343 81 38-4 1.7 99.5 47-4 7 5-53 1.7 99.5 47-515 58 76-84 1.7 99.5 47-8 7 1-16 1.7 99.5 47-13 58 Polarization s p HR>99.5% @ 76-84, AOI=45 8 Polarization 75 8 85 9 HRsp@76-84 GDD, AOI=45 s p Reflection, % Reflectance GDD, fs 1 8 6 4 4-4 -8 Polarization 9 96 1 14 18 11 116 1 s p HR>99.5% @ 1-16, AOI=45 8 Polarization 1 11 HRsp@1-16 GDD, AOI=45 s p 4.3 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

Dual line Laser Mirrors Specifications Angle of Incidence 45±3 Designed for average polarization R=(R s +R p )/ Laser Damage Threshold Dual Laser Line Mirrors material: BK7 grade A T, % 3..5. 1.5 1..5 48 5 5 54 1 15 11 HR>99.5% @ 5-53 +1-16, AOI = 45 Hard dielectric High Reflection R>99.5% >5 mj/cm, 5 fsec pulse, 8 typical Diameter 1.7 S1 Surface Flatness S1 Surface Quality S Surface Quality Diameter Tolerance Thickness Tolerance Wedge Chamfer Fused Silica or BK7 glass λ/1 at 633 1 scratch & dig laser quality Coercial polish +. -.1 ±.5 < 3 min.3 at 45 typical Thickness T, R, % (s+p)/ Catalogue number 39-41+78-8 3. 99.5 51-48 85 5-53+1-16 3. 99.5 51-513 85 Diameter 5.4 Thickness T, R, % (s+p)/ Catalogue number 39-41+78-8 6. 99.5 5-48 13 5-53+1-16 6. 99.5 5-513 13 Diameter 5.8 Thickness T, R, % (s+p)/ Catalogue number 39-41+78-8 8. 99.5 55-48 151 5-53+1-16 8. 99.5 55-513 151 Diameter 76. Thickness T, R, % (s+p)/ Catalogue number 39-41+78-8 1.7 99.5 57-48 7 5-53+1-16 1.7 99.5 57-513 7 Dual Laser Line Mirrors material: Fused Silica T, % Recoended for high power laser applications operating in UV region. 4 3 1 36 4 44 78 8 8 84 HR>99% @ 4 + 8, AOI = 45 Diameter 1.7 Thickness T, R, % (s+p)/ Catalogue number 39-41+78-8 3. 99.5 61-48 11 5-53+1-16 3. 99.5 61-513 11 Diameter 5.4 Thickness T, R, % (s+p)/ Catalogue number 39-41+78-8 6. 99.5 6-48 18 5-53+1-16 6. 99.5 6-513 18 Diameter 5.8 Thickness T, R, % (s+p)/ Catalogue number 39-41+78-8 8. 99.5 65-48 14 5-53+1-16 8. 99.5 65-513 14 Diameter 76. Thickness T, R, % (s+p)/ Catalogue number 39-41+78-8 1.7 99.5 67-48 31 5-53+1-16 1.7 99.5 67-513 31 Laser Line and Dual Laser Line Mirrors of other wavelengths See pages 1.8-1.1 Visit www.eksmaoptics.com for new products and prices 4.4

BROADBAND ULTRAFAST Ti:Sapphire LASER MIRRORS High reflectivity and low group velocity dispersion in broad region centered at 8 Specifications Hard dielectric High Reflection R>99.5% Angle of Incidence 45±3 Designed for average polarization R=(R s +R p )/ Laser Damage Threshold >5 mj/cm, 5 fsec pulse, 8 typical BK7 S1 Surface Flatness S1 Surface Quality S Surface Quality Diameter Tolerance Thickness Tolerance Wedge Chamfer FS Diameter, Thickness T, Fused Silica or BK7 glass λ/1 at 633 1 scratch & dig laser quality Coercial polish +. -.1 ±.5 < 3 min.3 at 45 typical R, % (s+p)/ 71-788 81-788 1.7 3. 7-88 99. 86 / 111 7-788 8-788 5.4 6. 7-88 99. 14 / 19 74-788 84-788 38.1 8. 7-88 99. 17 / 17 75-788 85-788 5.8 8. 7-88 99. 147 / 1 77-788 87-788 76. 1.7 7-88 99. 15 / 317 Reflectance, % Reflection GDD, fs 1 8 6 4 1 5-5 Polarization s p average 7 75 8 85 9 95 Polarization -1 7 75 8 85 9 HR>99% @7-88, AOI=45 s p 4.5 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

LASER HARMONIC SEPARATORS Offered on Ø.5 or 1 inch FS substrates with surface flatness λ/1 Harmonic separators are dichroic beamsplitters that reflect one wavelength and transmit others. Reflectance is better than 99.5% for the wavelength of interest and transmittance is at least 9% for the rejected wavelengths. The rear surface of harmonic separators is antireflection coated. If possible use shorter wavelength for reflection and longer wavelengths for transmission in order to have higher reflection/ transmission coefficients. S1 Surface Flatness S1 Surface Quality S Surface Flatness S Surface Quality Diameter Tolerance Thickness Tolerance Parallelism Chamfer Technology Adhesion and Durability Clear Aperture Coated Surface Flatness Back side antireflection coated Laser Damage Threshold Fused silica λ/1 typical at 633 1 scratch & dig laser quality λ/1 typical at 633 1 scratch & dig laser quality +. -.1 ±.5 < 3 arcsec.3 at 45 typical Electron beam multilayer dielectric Per MIL-C-675A. Insoluble in lab solvents Exceeds central 85% of diameter λ/1 at 633 over clear aperture AOI 45, R<.5% AOI, R<.5% >1 mj/cm, 5 fsec pulse, 8 typical Reflected wavelength,, R > 99.5% Transmitted wavelength, Transmission, % AOI material Catalogue number Ø1.7x3 Ø5.4x3 Ø1.7 / Ø5.4 57-75 78-8 >95 FS 41-8 4-8 145 / 175 57-75 78-8 >95 45 FS 41-85 4-85 145 / 175 57-75 39-41 >95 FS 41-4 4-4 145 / 175 57-75 39-41 >95 45 FS 41-45 4-45 145 / 175 57-75 4+8 >9 FS 41-48 4-48 145 / 175 57-75 4+8 >9 45 FS 41-485 4-485 145 / 175 39-41 78-8 >95 FS 41-48 4-48 145 / 175 39-41 78-8 >95 45 FS 41-485 4-485 145 / 175 8 4 >93 FS 41-84 4-84 14 / 17 8 4 >93 45 FS 41-845 4-845 14 / 17 333-353 1-16 >95 FS 41-313 4-313 135 / 165 333-353 1-16 >95 45 FS 41-3135 4-3135 135 / 165 333-353 5-53 >95 FS 41-345 4-345 135 / 165 333-353 5-53 >95 45 FS 41-3455 4-3455 135 / 165 333-353 515+13 >9 FS 41-353 4-353 155 / 185 333-353 515+13 >9 45 FS 41-3535 4-3535 155 / 185 5-53 1-16 >95 FS 41-513 4-513 135 / 165 5-53 1-16 >95 45 FS 41-5135 4-5135 135 / 165 13 515 >93 FS 41-651 4-651 14 / 17 13 515 >93 45 FS 41-6515 4-6515 14 / 17 Housing accessories Adapter for Beamsplitter at 45º 84-116 See page 7.8 Kinematic Mirror and Beamsplitter Mount 84-, 84-3 See page 7.6 Laser Harmonic Separators Nd:YAG LaserLine See page 3.5 Visit www.eksmaoptics.com for new products and prices 4.6

LASER OUTPUT COUPLERS Low reflectance Group Delay Dispersion An output coupler is a partially reflecting dielectric mirror used in a laser cavity. It transmits a part of the circulating intracavity power for generating a useful output from the laser. A low transmission output coupler leads to low laser threshold and possibly to poor laser efficiency if the losses due to output coupling do not dominate other parasitic losses in the laser cavity. The output coupler transmission is often chosen to maximize the output power, although its optimum value may be lower or higher if there are other design purposes (minimizing intracavity intensities or suppressing Q-switching instabilities in a passively mode-locked laser). The standard substrates are parallel within 3 arcsec. If you need wedged substrates, please, choose from chapter Wedge Prisms (page 1.35). Reflection, % S1 Surface Flatness S1 Surface Quality S Surface Flatness S Surface Quality Diameter Tolerance Thickness Tolerance Parallelism Chamfer Technology Adhesion and Durability Clear Aperture Angle of Incidence -8 Parallelism Transmission, % material Catalogue number Ø1.7 x 3 Ø5.4 x 6 Ø1.7 / Ø5.4 13 5±3 5±3 FS 41-15 4-15 15 / 15 13 6±3 4±3 FS 41-16 4-16 15 / 15 13 65±3 35±3 FS 41-165 4-165 15 / 15 13 7±3 3±3 FS 41-17 4-17 15 / 15 13 75±3 5±3 FS 41-175 4-175 15 / 15 13 8±3 ±3 FS 41-18 4-18 15 / 15 13 85±3 15±3 FS 41-185 4-185 15 / 15 13 9± 1± FS 41-19 4-19 11 / 13 13 95± 5± FS 41-195 4-195 11 / 13 13 97±1 3±1 FS 41-197 4-197 119 / 139 13 98±1 ±1 FS 41-198 4-198 119 / 139 13 99.±.5 1.±.5 FS 41-199 4-199 16 / 146 8 5±3 5±3 FS 41-115 4-115 15 / 15 8 6±3 4±3 FS 41-116 4-116 15 / 15 8 65±3 35±3 FS 41-1165 4-1165 15 / 15 8 7±3 3±3 FS 41-117 4-117 15 / 15 8 75±3 5±3 FS 41-1175 4-1175 15 / 15 8 8±3 ±3 FS 41-118 4-118 15 / 15 8 85±3 15±3 FS 41-1185 4-1185 15 / 15 8 9± 1± FS 41-119 4-119 11 / 13 8 95± 5± FS 41-1195 4-1195 11 / 13 8 97±1 3±1 FS 41-1197 4-1197 119 / 139 8 98±1 ±1 FS 41-1198 4-1198 119 / 139 8 99.±.5 1.±.5 FS 41-1199 4-1199 16 / 146 Housing accessories Kinematic Mirror and Beamsplitter Mount 84- See page 7.6 Fused silica λ/1 typical at 633 1 scratch & dig laser quality λ/1 typical at 633 1 scratch & dig laser quality +. -.1 ±.5 3 arcsec.3 at 45 typical Electron beam multilayer dielectric Per MIL-C-675A. Insoluble in lab solvents Exceeds central 85% of diameter 3 arcsec Back side antireflection coated R <.5% Laser Damage Threshold >1 mj/cm, 5 fsec pulse, 8 typical 4.7 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

Laser REAR Mirrors High reflectivity (R>99.8%) dielectric coatings with high laser damage treshold are applied on laser rear mirrors. FS substrates are recoended for high power laser applications. Back side can be AR coated to avoid back reflection from second surface on request. Fused silica or BK7 glass S1 Surface Flatness λ/1 at 633 S1 Surface Quality 1 scratch & dig laser quality S Surface Quality Coercial polish Diameter Tolerance +. -.1 Thickness Tolerance ±.5 Chamfer.3 at 45 typical Technology Electron beam multilayer dielectric Adhesion and Durability Per MIL-C-675A. Insoluble in lab solvents Clear Aperture Exceeds central 85% of diameter Angle of Incidence -8 (normal) Hard dielectric High Reflection R>99.8% Laser Damage Threshold >1 mj/cm, 5 fsec pulse, 8 typical T, % 4 3 1 9 96 1 14 18 11 HR>99.8% @ 13±3, AOI= type Radius, material Catalogue number Ø5.4 x 6 13±3 Plano-plano - BK7 1-8 75 13±3 Plano-concave -5 BK7 1-85 99 13±3 Plano-concave -1 BK7 1-81 99 13±3 Plano-concave -15 BK7 1-815 99 13±3 Plano-concave - BK7 1-8 99 13±3 Plano-concave -5 BK7 1-85 99 13±3 Plano-concave -5 BK7 1-85 99 13±3 Plano-concave -1 BK7 1-81 99 13±3 Plano-concave - BK7 1-8 99 13±3 Plano-concave -5 BK7 1-85 99 13±3 Plano-concave -4 BK7 1-84 99 13±3 Plano-concave -5 BK7 1-85 99 13±3 Plano-plano - FS -8 1 13±3 Plano-concave -5 FS -85 119 13±3 Plano-concave -1 FS -81 119 13±3 Plano-concave -15 FS -815 119 13±3 Plano-concave - FS -8 119 13±3 Plano-concave -5 FS -85 119 13±3 Plano-concave -5 FS -85 119 13±3 Plano-concave -1 FS -81 119 13±3 Plano-concave - FS -8 119 13±3 Plano-concave -5 FS -85 119 13±3 Plano-concave -4 FS -84 119 13±3 Plano-concave -5 FS -85 119 13±3 Plano-convex +1 BK7 1-91 13 13±3 Plano-convex + BK7 1-9 13 13±3 Plano-convex +5 BK7 1-95 13 13±3 Plano-convex +1 BK7 1-91 13 13±3 Plano-convex + BK7 1-9 13 13±3 Plano-convex +4 BK7 1-94 13 13±3 Plano-convex +1 FS -91 13 13±3 Plano-convex + FS -9 13 13±3 Plano-convex +5 FS -95 13 13±3 Plano-convex +1 FS -91 13 13±3 Plano-convex + FS -9 13 13±3 Plano-convex +4 FS -94 13 Visit www.eksmaoptics.com for new products and prices 4.8

T, % 4 3 1 7 74 78 8 86 9 HR>99.8% @ 8±, AOI= Laser rear mirrors for Nd:YAG laser applications See page 3.8 type Radius, material Catalogue number Ø5.4 x 6 8± Plano-plano - BK7 6-8 75 8± Plano-concave -5 BK7 6-85 99 8± Plano-concave -1 BK7 6-81 99 8± Plano-concave -15 BK7 6-815 99 8± Plano-concave - BK7 6-8 99 8± Plano-concave -5 BK7 6-85 99 8± Plano-concave -5 BK7 6-85 99 8± Plano-concave -1 BK7 6-81 99 8± Plano-concave - BK7 6-8 99 8± Plano-concave -5 BK7 6-85 99 8± Plano-concave -4 BK7 6-84 99 8± Plano-concave -5 BK7 6-85 99 8± Plano-plano - FS 8-8 75 8± Plano-concave -5 FS 8-85 119 8± Plano-concave -1 FS 8-81 119 8± Plano-concave -15 FS 8-815 119 8± Plano-concave - FS 8-8 119 8± Plano-concave -5 FS 8-85 119 8± Plano-concave -5 FS 8-85 119 8± Plano-concave -1 FS 8-81 119 8± Plano-concave - FS 8-8 119 8± Plano-concave -5 FS 8-85 119 8± Plano-concave -4 FS 8-84 119 8± Plano-concave -5 FS 8-85 119 8± Plano-convex +1 BK7 6-91 13 8± Plano-convex + BK7 6-9 13 8± Plano-convex +5 BK7 6-95 13 8± Plano-convex +1 BK7 6-91 13 8± Plano-convex + BK7 6-9 13 8± Plano-convex +4 BK7 6-94 13 8± Plano-convex +1 FS 8-91 13 8± Plano-convex + FS 8-9 13 8± Plano-convex +5 FS 8-95 13 8± Plano-convex +1 FS 8-91 13 8± Plano-convex + FS 8-9 13 8± Plano-convex +4 FS 8-94 13 Housing accessories Kinematic Mirror Mount 84-1 See page 7.6 Kinematic Mirror and Beamsplitter Mount 84- See page 7.6 4.9 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

Laser Beamsplitters Beamsplitter splits average polarized laser beam in two beams separated 9 from each other. The standard substrate thickness is 3. If you need thinner substrate, please, choose from chapter Precision Thin Round Windows (page 1.9). Please contact us for wedged beamsplitters or choose wedged substrates from Wedge Prisms (page 1.35) Designed for average polarization: R=(R s +R p )/ and T=(T s +T p )/ Designed for S- polarization S1 Surface Flatness Reflection, % Reflection, % Transmission, % Transmission, % FS, UV FS λ/1 at 633 S1 Surface Quality -1 scratch & dig laser quality S Surface Flatness λ/1 at 633 S Surface Quality -1 scratch & dig laser quality Diameter Tolerance +. -.1 Thickness Tolerance ±.5 Parallelism 3 arcsec Chamfer.3 at 45 typical material material Technology Adhesion and Durability Clear Aperture Angle of Incidence 45±3 Back side antireflection coated R<.5% Laser Damage Threshold Catalogue number Ø1.7 x 3 Ø5.4 x 3 Catalogue number Ø1.7 x 3 Ø5.4 x 3 Electron beam multilayer dielectric Per MIL-C-675A. Insoluble in lab solvents Exceeds central 85% of diameter >1 mj/cm, 5 fsec pulse, 8 typical Ø1.7 / Ø5.4 13 ±3 8±3 FS 31-74 3-74 15 / 15 13 3±3 7±3 FS 31-743 3-743 15 / 15 13 5±3 5±3 FS 31-745 3-745 15 / 15 13 7±3 3±3 FS 31-747 3-747 15 / 15 13 8±3 ±3 FS 31-748 3-748 15 / 15 515 ±3 8±3 FS 31-75 3-75 13 / 13 515 3±3 7±3 FS 31-753 3-753 13 / 13 515 5±3 5±3 FS 31-755 3-755 13 / 13 515 7±3 3±3 FS 31-757 3-757 13 / 13 515 8±3 ±3 FS 31-758 3-758 13 / 13 343 ±3 8±3 FS 31-76 3-76 11 / 14 343 3±3 7±3 FS 31-763 3-763 11 / 14 343 5±3 5±3 FS 31-765 3-765 11 / 14 343 7±3 3±3 FS 31-767 3-767 11 / 14 343 8±3 ±3 FS 31-768 3-768 11 / 14 8 ±3 8±3 FS 41-77 4-77 15 / 15 8 3±3 7±3 FS 41-773 4-773 15 / 15 8 5±3 5±3 FS 41-775 4-775 15 / 15 8 7±3 3±3 FS 41-777 4-777 15 / 15 8 8±3 ±3 FS 41-778 4-778 15 / 15 4 ±3 8±3 FS 41-78 4-78 13 / 13 4 3±3 7±3 FS 41-783 4-783 13 / 13 4 5±3 5±3 FS 41-785 4-785 13 / 13 4 7±3 3±3 FS 41-787 4-787 13 / 13 4 8±3 ±3 FS 41-788 4-788 13 / 13 66 ±3 8±3 UVFS 41-79 4-79 115 / 145 66 3±3 7±3 UVFS 41-793 4-793 115 / 145 66 5±3 5±3 UVFS 41-795 4-795 115 / 145 66 7±3 3±3 UVFS 41-797 4-797 115 / 145 66 8±3 ±3 UVFS 41-798 4-798 115 / 145 Ø1.7 / Ø5.4 13 ±3 8±3 FS 31-74S 3-74S 15 / 15 13 3±3 7±3 FS 31-743S 3-743S 15 / 15 13 5±3 5±3 FS 31-745S 3-745S 15 / 15 13 7±3 3±3 FS 31-747S 3-747S 15 / 15 13 8±3 ±3 FS 31-748S 3-748S 15 / 15 515 ±3 8±3 FS 31-75S 3-75S 13 / 13 515 3±3 7±3 FS 31-753S 3-753S 13 / 13 515 5±3 5±3 FS 31-755S 3-755S 13 / 13 515 7±3 3±3 FS 31-757S 3-757S 13 / 13 515 8±3 ±3 FS 31-758S 3-758S 13 / 13 Visit www.eksmaoptics.com for new products and prices 4.1

Designed for P- polarization Reflection, % Reflection, % Transmission, % Transmission, % material material Catalogue number Ø1.7 x 3 Ø5.4 x 3 Catalogue number Ø1.7 x 3 Ø5.4 x 3 Ø1.7 / Ø5.4 343 ±3 8±3 FS 31-76S 3-76S 11 / 14 343 3±3 7±3 FS 31-763S 3-763S 11 / 14 343 5±3 5±3 FS 31-765S 3-765S 11 / 14 343 7±3 3±3 FS 31-767S 3-767S 11 / 14 343 8±3 ±3 FS 31-768S 3-768S 11 / 14 8 ±3 8±3 FS 41-77S 4-77S 15 / 15 8 3±3 7±3 FS 41-773S 4-773S 15 / 15 8 5±3 5±3 FS 41-775S 4-775S 15 / 15 8 7±3 3±3 FS 41-777S 4-777S 15 / 15 8 8±3 ±3 FS 41-778S 4-778S 15 / 15 4 ±3 8±3 FS 41-78S 4-78S 13 / 13 4 3±3 7±3 FS 41-783S 4-783S 13 / 13 4 5±3 5±3 FS 41-785S 4-785S 13 / 13 4 7±3 3±3 FS 41-787S 4-787S 13 / 13 4 8±3 ±3 FS 41-788S 4-788S 13 / 13 66 ±3 8±3 UVFS 41-79S 4-79S 115 / 145 66 3±3 7±3 UVFS 41-793S 4-793S 115 / 145 66 5±3 5±3 UVFS 41-795S 4-795S 115 / 145 66 7±3 3±3 UVFS 41-797S 4-797S 115 / 145 66 8±3 ±3 UVFS 41-798S 4-798S 115 / 145 Ø1.7 / Ø5.4 13 ±3 8±3 FS 31-74P 3-74P 15 / 15 13 3±3 7±3 FS 31-743P 3-743P 15 / 15 13 5±3 5±3 FS 31-745P 3-745P 15 / 15 13 7±3 3±3 FS 31-747P 3-747P 15 / 15 13 8±3 ±3 FS 31-748P 3-748P 15 / 15 515 ±3 8±3 FS 31-75P 3-75P 13 / 13 515 3±3 7±3 FS 31-753P 3-753P 13 / 13 515 5±3 5±3 FS 31-755P 3-755P 13 / 13 515 7±3 3±3 FS 31-757P 3-757P 13 / 13 515 8±3 ±3 FS 31-758P 3-758P 13 / 13 343 ±3 8±3 FS 31-76P 3-76P 11 / 14 343 3±3 7±3 FS 31-763P 3-763P 11 / 14 343 5±3 5±3 FS 31-765P 3-765P 11 / 14 343 7±3 3±3 FS 31-767P 3-767P 11 / 14 343 8±3 ±3 FS 31-768P 3-768P 11 / 14 8 ±3 8±3 FS 41-77P 4-77P 15 / 15 8 3±3 7±3 FS 41-773P 4-773P 15 / 15 8 5±3 5±3 FS 41-775P 4-775P 15 / 15 8 7±3 3±3 FS 41-777P 4-777P 15 / 15 8 8±3 ±3 FS 41-778P 4-778P 15 / 15 4 ±3 8±3 FS 41-78P 4-78P 13 / 13 4 3±3 7±3 FS 41-783P 4-783P 13 / 13 4 5±3 5±3 FS 41-785P 4-785P 13 / 13 4 7±3 3±3 FS 41-787P 4-787P 13 / 13 4 8±3 ±3 FS 41-788P 4-788P 13 / 13 66 ±3 8±3 UVFS 41-79P 4-79P 115 / 145 66 3±3 7±3 UVFS 41-793P 4-793P 115 / 145 66 5±3 5±3 UVFS 41-795P 4-795P 115 / 145 66 7±3 3±3 UVFS 41-797P 4-797P 115 / 145 66 8±3 ±3 UVFS 41-798P 4-798P 115 / 145 Laser Beamsplitters for Nd:YAG laser applications See page 3.9 Housing accessories Kinematic Mirror and Beamsplitter Mount 84-3 See page 7.6 Adapter for Beamsplitter at 45º 84-116 See page 7.8 4.11 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

AR Coated Lens Kits Lens kits consist of four basic types of lenses with various focal lengths. Focal lengths of plano-concave lenses range from -5 to -3, biconcave lenses from -5 to -. Plano-convex and biconvex lenses cover focal distances from 5 to 1. The lenses are 5.4 diameter. Kits are available with laser line or broadband coatings. Lenses are placed in a hardwood box. Size of the box is 3 7 4 cm (W H D). Lens kits are available from two kinds of substrate material: FS or UV FS. Lens kit includes 36 lenses. 141-335 FS AR 13 65 14-335 FS AR 515 65 143-335 FS AR 343 77 144-136 UV FS AR 66 96 148-336 FS AR 76-84, R<.5 % 65 149-336 FS AR 7-9, R<.8% 8 List of the lenses in lens kits Reflection, % Reflection, % 1.5 1..5 7 76 8 84 88 4 3 1 AR<.5% @ 76-84, AOI= 6 7 8 9 1 11 AR<.8% @ 7-9, AOI= Uncoated Lens Kits See page 1.7 AR coated lens kits Nd:YAG LaserLine See page 3.1 Housing accessories Self-Centring Lens Mounts 83-1 See page 7.5 UV FS FS Configuration Dia*, F, Plano-convex lenses (1 pcs.) 11-13 11-33 pl/cx 5.4 3 11-15 11-35 pl/cx 5.4 5 11-19 11-39 pl/cx 5.4 75 11-111 11-311 pl/cx 5.4 1 11-116 11-316 pl/cx 5.4 15 11-117 11-317 pl/cx 5.4 15 11-119 11-319 pl/cx 5.4 11-11 11-31 pl/cx 5.4 5 11-13 11-33 pl/cx 5.4 3 11-17 11-37 pl/cx 5.4 4 11-133 11-333 pl/cx 5.4 5 11-145 11-345 pl/cx 5.4 1 Biconvex lenses (1 pcs.) 111-14 111-34 bi/cx 5.4 5 111-17 111-37 bi/cx 5.4 4 111-11 111-31 bi/cx 5.4 5 111-114 111-314 bi/cx 5.4 75 111-118 111-318 bi/cx 5.4 1 111-1 111-3 bi/cx 5.4 15 111-16 111-36 bi/cx 5.4 111-13 111-33 bi/cx 5.4 5 111-134 111-334 bi/cx 5.4 3 111-138 111-338 bi/cx 5.4 4 111-14 111-34 bi/cx 5.4 5 111-16 111-36 bi/cx 5.4 1 Plano-concave lenses (6 pcs.) 11-15 11-35 pl/cv 5.4-5 11-19 11-39 pl/cv 5.4-75 11-111 11-311 pl/cv 5.4-1 11-117 11-317 pl/cv 5.4-15 11-119 11-319 pl/cv 5.4-11-13 11-33 pl/cv 5.4-3 Biconcave lenses (6 pcs.) 114-14 114-34 bi/cv 5.4-5 114-18 114-38 bi/cv 5.4-5 114-11 114-31 bi/cv 5.4-75 114-116 114-316 bi/cv 5.4-1 114-1 114-3 bi/cv 5.4-15 114-14 114-34 bi/cv 5.4 - * Diameter tolerance: +./-.5. Visit www.eksmaoptics.com for new products and prices 4.1

Thin Film Laser Polarizers Thin Film Polarizers seperate s- and p-polarization components. Thin Film Polarizers can be used as an alternative to Glan-Taylor laser polarizing prisms or cube polarizing beamsplitters due to high damage treshold reaching 1 mj/cm, at 8, 5 fsec. Thin film polarizers are used in high energy lasers. They can be used for Yb:KYW/KGW or Ti:Sapphire laser fundamental wavelength and its harmonics or intracavity Q-switch hold-off polarizers. The most efficient way to use thin film laser polarizers is at Brewter angle 56 ± with minimal losses. Typical horizontal polarization ratio T p /T s is :1. BK7 Transmission, % Transmission, % 1 8 6 4 We provide Thin Film Laser Polarizers with T p >99% per customer request. 7 74 78 8 86 1 98 96 94 9 4 3 1 Polarization s p Transmission curve @ 78-8, AOI=56 1 11 1 13 14 15 16 17 Transmission curve @ 11-15, R s >99%, T p >95%, AOI= 56 UV FS Thin Film Laser Polarizers of other wavelengths See page 1.4 Polarization s p Thin Film Laser Polarizers for Nd:YAG laser applications See page 3.14 Catalogue number Diameter D, Thickness T, Metric English 4-114 1.5 1.7 3. 515 97 4-16 1.5 1.7 3. 8 97 4-136 1.5 1.7 3. 78-8 145 4-118 1.5 1.7 3. 13 94 4-138 1.5 1.7 3. 11-15 141 4-44 5. 5.4 3. 515 115 4-56 5. 5.4 3. 8 115 4-66 5. 5.4 3. 78-8 17 4-48 5. 5.4 3. 13 11 4-68 5. 5.4 3. 11-15 165 4-514 5. 5.8 6. 515 185 4-56 5. 5.8 6. 8 185 4-56 5. 5.8 6. 78-8 78 4-518 5. 5.8 6. 13 185 4-58 5. 5.8 6. 11-15 78 Catalogue number Specifications Surface quality Brewster angle Transmission efficiency BK7, FS, UV FS 1 scratch & dig Tp>95% Extinction ratio Tp/Ts >:1 Laser damage threshold s-pol Rectangular dimensions Thickness T, Length, Width, >1 mj/cm, 5 fsec pulse, 8 typical 4-74 8.6 14.3 3. 515 17 4-86 8.6 14.3 3. 8 17 4-96 8.6 14.3 3. 78-8 19 4-78 8.6 14.3 3. 13 15 4-98 8.6 14.3 3. 11-15 187 Catalogue number Diameter D, Thickness T, Metric English D T p-pol 4-111 1.5 1.7 3. 343 149 4-113 1.5 1.7 3. 4 119 4-1114 1.5 1.7 3. 515 119 4-116 1.5 1.7 3. 8 119 4-1136 1.5 1.7 3. 78-8 178 4-1118 1.5 1.7 3. 13 115 4-1138 1.5 1.7 3. 11-15 17 4-14 5. 5.4 3. 343 165 4-153 5. 5.4 3. 4 14 4-144 5. 5.4 3. 515 14 4-156 5. 5.4 3. 8 14 4-166 5. 5.4 3. 78-8 1 4-148 5. 5.4 3. 13 135 4-168 5. 5.4 3. 11-15 4.13 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

Catalogue number Diameter D, Thickness T, Metric English 4-151 5. 5.8 6. 343 315 4-153 5. 5.8 6. 4 69 4-1514 5. 5.8 6. 515 69 4-156 5. 5.8 6. 8 69 4-156 5. 5.8 6. 78-8 44 4-1518 5. 5.8 6. 13 63 4-158 5. 5.8 6. 11-15 395 FS Catalogue number Rectangular dimensions Thickness T, Length, Width, 4-17 8.6 14.3 3. 343 55 4-183 8.6 14.3 3. 4 15 4-174 8.6 14.3 3. 515 15 4-186 8.6 14.3 3. 8 15 4-196 8.6 14.3 3. 78-8 3 4-178 8.6 14.3 3. 13 1 4-198 8.6 14.3 3. 11-15 315 FS Please contact us if you need thin film laser polarizers for other wavelengths or other types of substrates. Catalogue number Diameter D, Thickness T, Metric English 4-311 1.5 1.7 3. 343 143 4-313 1.5 1.7 3. 4 117 4-3114 1.5 1.7 3. 515 117 4-316 1.5 1.7 3. 8 117 4-3136 1.5 1.7 3. 78-8 175 4-3118 1.5 1.7 3. 13 113 4-3138 1.5 1.7 3. 11-15 169 4-34 5. 5.4 3. 343 159 4-353 5. 5.4 3. 4 133 4-344 5. 5.4 3. 515 133 4-356 5. 5.4 3. 8 133 4-366 5. 5.4 3. 78-8 199 4-348 5. 5.4 3. 13 13 4-368 5. 5.4 3. 11-15 195 4-351 5. 5.8 6. 343 3 4-353 5. 5.8 6. 4 59 4-3514 5. 5.8 6. 515 59 4-356 5. 5.8 6. 8 59 4-356 5. 5.8 6. 78-8 389 4-3518 5. 5.8 6. 13 51 4-358 5. 5.8 6. 11-15 377 Catalogue number Rectangular dimensions Thickness T, Length, Width, 4-37 8.6 14.3 3. 343 47 4-383 8.6 14.3 3. 4 1 4-374 8.6 14.3 3. 515 1 4-386 8.6 14.3 3. 8 1 4-396 8.6 14.3 3. 78-8 31 4-378 8.6 14.3 3. 13 195 4-398 8.6 14.3 3. 11-15 9 Housing accessories Adapters for Polarizer at 56 84-117, 84-118 See page 7.8 Variable Attenuators for Linearly Polarized Laser Pulses 99-7 See page 4.19 Visit www.eksmaoptics.com for new products and prices 4.14

Quartz Retardation Plates Quartz Retardation Plates are made of material enabling linear birefringence. These plates are made of high quality optical grade crystalline quartz, featuring high damage threshold. Retardation plates rotate polarization s direction (λ/) or convert linear into circular polarization or vice versa (λ/4). Quartz retardation plates are supplied mounted and AR coated. Zero Order optically contacted Plates Easily aligned Temperature insensitive Moderately insensitive to wavelength Zero order plates are comprised of two different plates cut parallel to their optical axis. This construction makes plates less dependent on temperature. The plates are polished to different thicknesses enabling one to achieve required retardation difference. These component plates have orthogonal optic axis directions, so that the roles of the ordinary and extraordinary rays are interchanged in passing from one plate to another. The thickness of the plate determines the phase shift between the ordinary and extraordinary beams for any specific wavelength. Zero Order Optically Contacted Plates of other wavelengths See page 1.47 Zero Order Optically Contacted Plates for Nd:YAG laser applications See page 3.16 ZERO ORDER AIR-SPACED PLATES For high power laser applications Zero Order Air-Spaced Plates for Nd:YAG laser applications See page 3.17 Center wavelength, Specifications Optical axis Clear aperture Ring mount outer diameter Surface quality Wavefront distortion Parallelism Single crystal quartz normal to facet on circumference of retarder Ø17 5.4 +. -.1-4 scr/dig λ/1 @ 633 < 1 arcsec AR coating R <.5% Laser damage treshold AR coating range, Specifications Optical axis Clear aperture Ring mount outer diameter Wavefront distortion Surface quality Parallelism > 1 mj/cm, 5 fsec pulse, 8 typical Single crystal quartz normal to facet on circumference of retarder Ø17 5.4 +. / -.1 λ/1 @ 633 1 scr/dig < 1 arcsec AR coating R <.5% Laser damage treshold Retardation λ/ Retardation λ/4 Catalogue no. Catalogue no. 13 1-16 46-48 45 46-448 45 8 76-84 46-415 45 46-4415 45 78 74-8 46-4 45 46-44 45 515 5-53 46-43 45 46-443 45 4 38-4 46-435 45 46-4435 45 343 333-353 46-441 7 46-4441 7 66 57-75 46-445 8 46-4445 8 57 5-65 46-446 8 46-4446 8 Center wavelength, AR coating range, new 1 mj/cm, 5 fsec pulse, 8 typical Retardation λ/ Retardation λ/4 Catalogue no. Catalogue no. 13 1-16 464-48 31 464-448 31 8 76-84 464-415 31 464-4415 31 78 74-8 464-4 31 464-44 31 515 5-53 464-43 31 464-443 31 4 38-4 464-435 31 464-4435 31 343 333-353 464-441 335 464-4441 335 66 57-75 464-445 345 464-4445 345 57 5-65 464-446 345 464-4446 345 4.15 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

Zero Order Dual Wavelength Plates new When optical axis is turned by 45 rees to input polarization, the waveplate rotates polarization of Ti:Sapphire laser fundamental (8 ) by 9 rees and the polarization of Ti:Sapphire second harmonic (4 ) remains the same. Polarization purity, % 1 8 6 4 4 5 6 7 8 9 Polarization purity of zero order dual waveplate Specifications Single crystal quartz Optical axis normal to facet on circumference of retarder Clear aperture Ø17 Ring mount outer diameter 5.4 +./-.1 Surface quality -1 scr/dig Wavefront distortion λ/1 @ 633 Parallelism <1 arcsec AR coating R<.5% Laser Damage Threshold: Optically Contacted (465-411) >1 mj/cm, 5 fsec pulse, 8 typical Air-Spaced (466-411) 1 mj/cm, 5 fsec pulse, 8 typical Description AR coated 465-411 optically contacted; λ/@8 + λ@4 8+4 345 466-411 air-spaced; λ/@8 + λ@4 8+4 41 Low Order Plates Thickness.15.35 Thinner than multiple order Low order plates are less temperature sensitive and temperature dependent than multiple order plates. These plates are suitable for high and low power applications. Specifications Single crystal quartz Optical axis normal to facet on circumference of retarder Clear aperture Ø17 Ring mount outer diameter 5.4 +./-.1 Surface quality 1 scr/dig Wavefront distortion λ/1 @ 633 Parallelism < 1 arcsec AR coating R <.5% Laser damage treshold 1 mj/cm, 5 fsec pulse, 8 typical Low Order Plates of other wavelengths See page 1.48 Low Order Plates for Nd:YAG laser applications See page 3.17 Center wavelength, AR coating range, Retardation λ/ Retardation λ/4 Catalogue no. Catalogue no. 13 1-16 461-48 16 461-448 16 8 76-84 461-415 16 461-4415 16 78 74-8 461-4 16 461-44 16 515 5-53 461-43 16 461-443 16 4 38-4 461-435 16 461-4435 16 343 333-353 461-441 19 461-4441 19 66 57-75 461-445 196 461-4445 196 57 5-65 461-446 196 461-4446 196 Visit www.eksmaoptics.com for new products and prices 4.16

Multiple Order Dual Wavelength plates Specifications Dual Wavelength Plates of other wavelengths See page 1.5 Dual Wavelength Plates for Nd:YAG laser applications See page 3.18 Polarization plane rotators of other wavelengths See page 1.51 Optical axis Wavefront distortion Clear aperture Ring mount outer diameter Surface quality Parallelism Polarization Plane Rotators Made of crystalline quartz Intended to rotate a beam polarization plane strictly to an appropriate angle using circular birefringent effect Specifications Single crystal quartz Optical axis Normal to faces S1, S of rotator Clear aperture Ø17 Ring mount outer diameter 5.4 +./-.1 Surface quality 1 scr/dig Wavefront distortion λ/1 @ 633 Parallelism < 1 arcsec AR coating R <.5% Laser damage treshold 1 mj/cm, 5 fsec pulse, 8 typical Single crystal quartz normal to facet on circumference of retarder λ/1 @ 633 Ø17 of Ø 5.4 (or 5.) +./-.1-1 scratch & dig < 1 arcsec AR coating R <.5% Nominal thickness of waveplate Laser damage treshold.-1. >1 mj/cm, 5 fsec pulse, 8 typical Retardation and Wavelength Catalogue number λ @ 8 + λ/ @ 4 463-411 15 λ @ 8 + λ/4 @ 4 463-4141 15 λ/ @ 8 + λ @ 4 463-411 15 λ/ @ 8 + λ/ @ 4 463-41 15 λ/ @ 8 + λ/4 @ 4 463-441 15 λ/4 @ 8 + λ @ 4 463-4411 15 λ/4 @ 8 + λ/ @ 4 463-441 15 λ/4 @ 8 + λ/4 @ 4 463-4441 15 Compared to a waveplate, a rotator has an intrinsic advantage, being independent of rotation around its own optical axis. It needs no adjustment, only to be installed normal to incident radiation. A polarization plane rotator is normally used for the specific wavelength. It is only slightly dependent on ambient temperature. Catalogue number Center wavelength, S1 T S Rotation angle of polarization plane, D Clear aperture AR coating range, 47-494 13 45 1-16 15 47-499 13 9 1-16 15 47-484 8 45 76-84 195 47-489 8 9 76-84 195 47-4784 78 45 74-8 195 47-4789 78 9 74-8 195 47-4514 515 45 5-53 195 47-4519 515 9 5-53 195 47-444 4 45 38-4 195 47-449 4 9 38-4 195 47-4344 343 45 333-353 195 47-4349 343 9 333-353 195 47-464 66 45 57-75 45 47-469 66 9 57-75 45 47-454 57 45 5-65 45 47-459 57 9 5-65 45 Polarization plane rotators for Nd:YAG laser applications See page 3.19 Polarization plane rotators for any wavelength from to 3 are available. 4.17 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

Group Velocity Delay (GVD) Compensation plates new Compensation plates are made of Calcite. Plates are available with different orientation for different Group Velocity Delay compensation starting from tens of femtosecond up to tens of picosecond delay compensation. Standard GVD compensation plates are adjusted for required compensation by angular tuning changing the angle of incidence. Suggested AOI is -5 to +5, however they also can operate at larger AOI. Standard plates are made of 14 14 aperture, clear aperture dia 1 and mounted in to 1 ring holder. The optical axis is at special orientation non parallel to faces of plate. AR coatings for custom wavelengths are also available. Alpha-BBO plates are available on request. Specifications Clear aperture Ring mount outer diameter Surface quality Wavefront distortion Parallelism AR coating Natural Calcite Ø1 5.4 +./-.1 4- scr/dig λ/4@ 633 <3 arc min R<.5% 76-84 and R<1% at 38-4 Standard Calcite plates for delay compensation between 8 ("o" polarization) and 4 ("e" polarization) pulses GVD compensation range* s 5-11 9 41 fsec BBAR @ 8+4 47 5-111 39 57 fsec BBAR @ 8+4 47 5-11 49 69 fsec BBAR @ 8+4 47 *GVD compensation range at Angle Of Incidence from -5º to +5º. GVD between 8 and 4 pulses, fsec -3-7 -31-35 -39-43 -47-1 -8-6 -4-4 6 8 1 AOI of 8 and 4 beams, 5-11. GVD between 8 and 4 pulses, fsec -3-34 -38-4 -46-5 -54-58 -6-66 -1-8 -6-4 - 4 6 8 1 AOI of 8 and 4 beams, 5-111. GVD between 8 and 4 pulses, fsec -35-4 -45-5 -55-6 -65-7 -75-8 -1-8 -6-4 - 4 6 8 1 AOI of 8 and 4 beams, 5-11. Third Harmonic Generation of Ti:Sapphire Laser Kits See page 4.5 Thin BBO Crystals for SHG and THG of Ti:Sapphire laser wavelengths See pages 4. Positioning Mount 84-199 for Nonlinear Crystal Housing See page.6 Visit www.eksmaoptics.com for new products and prices 4.18

Variable Attenuator for Femtosecond Linearly Polarized Laser Pulses 99-7 new top view Divides laser beam into two parallel beams of manually adjustable intensity ratio Large dynamic range Negligible beam deviation High Optical damage threshold This variable attenuator/beamsplitter consists of special design opto-mechanical Adapter and precision opto-mechanical Holder 84-197. Two Thin Film Brewster type polarizers, which reflect s-polarized light while transmitting p-polarized light, are housed into Adapter. Quartz Half Waveplates are housed in rotating holder 84-197 The intensity ratio of those two beams may be continuously varied without alteration of other beam parameters by rotating the waveplate. The intensity of either exit beam, or their intensity ratio, Linearly polarized beam Half Waveplate Specifications Aperture diameter Damage treshold for high power laser applications Time dispersion Thin Film Polarizer Thin Film Polarizer S-pol attenuation range ~.5 99.% P-pol attenuation range ~.5 95.% 17 Polarization Contrast (after 1st polarizer) >1: Polarization Contrast (after nd polarizer) >1:5 Catalogue number 99-7-343 343 84 99-7-4 4 74 99-7-515 515 74 99-7-8 8 74 99-7-13 13 74 Zero order optically contacted half waveplate is housed in rotating holder for high power femtosecond applications (Laser damage treshold: >1 mj/cm, 5 fs pulse at 8, typical). can be controlled over a wide dynamic range. P-polarization could be selected for maximum transmission, or high-purity s-polarization could be reflected when maximum attenuation of the transmitted beam takes place. The holder 84-197 allows to adjust Angle Of Incidence of the Thin Film Brewster type polarizers by ± and to get the maximum polarization contrast. >1 mj/cm, 5 fs pulse at 8, typical >1 mj/cm, 5 fs pulse at 8, typical t<4 fs for 1 fs Ti:Sapphire laser pulses For High Power Femtosecond Laser Applications Catalogue number 99-7-66H 66 1 99-7-343H 343 915 99-7-4H 4 815 99-7-515H 515 815 99-7-8H 8 815 99-7-13H 13 815 Zero Order Air-Spaced half waveplate is housed in rotating holder for high power femtosecond applications (Laser damage treshold: >1 mj/cm, 5 fs pulse at 8, typical). Femtoline Zero Order Optically Contacted/Air-Spaced Plates See page 4.15 Transmission, % 1 8 6 4 4 6 8 1 Waveplate angle, Femtoline Thin Film Laser Polarizers See page 4.13 Beam dumps 99-8, 99-8 See page 6.18 4.19 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

Variable Attenuator for Femtosecond Linearly Polarized Laser Pulses 99-71 new Note: Solid Base Height Extender 8-1 and Standard Rod 8-- should be ordered separately This variable attenuator/beamsplitter consists of special design opto-mechanical adapter for polarizer at 56 84-117A and precision opto-mechanical holder 84-197. Thin Film Brewster type polarizer, which reflect s-polarized light at 56 while transmitting p-polarized light, is housed into adapter for polarizer at 56. Quartz Half Waveplates are housed in rotating holder 84-197. The intensity ratio of those two beams may be continuously varied without alteration of other beam parameters by rotating the waveplate. The intensity of 68 p pol. s pol. Attenuation range.5%-95% Attenuation range 5%-99.5% 56 Light direction Linear polarized light Half waveplate either exit beam, or their intensity ratio, can be controlled over a wide dynamic range. P-polarization could be selected for maximum transmission, or high-purity s-polarization could be reflected when maximum attenuation of the transmitted beam takes place. The holder 84-197 allows to adjust Angle Of Incidence of the Thin Film Brewster type polarizer by ± and to get the maximum polarization contrast. Transmission, % 1 8 6 4 4 6 8 1 Waveplate angle, Divides laser beam into separated by 68 angle two beams of manually adjustable intensity ratio Large dynamic range Negligible transmitted beam deviation High Optical damage threshold Femtoline Zero Order Optically Contacted / Air-Spaced Plates See page 4.15 Femtoline Thin Film Laser Polarizers See page 4.13 Specifications Aperture diameter Damage treshold for high power laser applications Time dispersion 1 Polarization Contrast >1: For Femtosecond Applications >1 mj/cm, 5 fs pulse at 8, typical >1 mj/cm, 5 fs pulse, 8 typical t<4 fs for 1 fs Ti:Sapphire laser pulses Catalogue number 99-71-343 343 6 99-71-4 4 55 99-71-515 515 55 99-71-8 8 55 99-71-13 13 55 Zero order optically contacted half waveplate is housed in rotating holder 84-197 (laser damage threshold: >1 mj/cm, 5 fs pulse at 8, typical). For High Power Femtosecond Laser Applications Catalogue number 99-71-66H 66 69 99-71-343H 343 665 99-71-4H 4 615 99-71-515H 515 615 99-71-8H 8 615 99-71-13H 13 615 Zero Order Air-Spaced half waveplate is housed in rotating holder 84-197 (laser damage treshold: >1 mj/cm, 5 fs pulse, 8 typical). Visit www.eksmaoptics.com for new products and prices 4.

FemtoLine Laser Crystals Ti:Sapphire (Titanium Doped Sapphire Ti:Al O 3 ) laser line and harmonics physical and laser properties Chemical formula Ti 3+ :Al O 3 Crystal structure Hexagonal Lattice constants Ti:Sapphire laser crystal is used as a gain medium for tunable lasers and femtosecond solid-state lasers. Lasers based on Ti:Sapphire crystal are mainly used to generate ultrashort femtosecond pulses. The lasing band of Ti:Sapphire is 66-15, while coon pump wavelength is frequency doubled Nd:YAG laser line at 53 or Argon Ion laser lines at 49-514. The peak of emission in Ti:Sapphire is at 79-8 wavelength. a=4.748, c=1.957 Density 3.98 g/cm 3 Mohs hardness 9 Thermal conductivity Specific heat.11 cal/( C sec cm).1 cal/g Melting point 5 C Laser action Fluorescence lifetime Tuning range Absorbtion range Emission peak Absorption peak Refractive index 4-Level Vibronic 3. µsec (T=3K) 66 15 4 6 795 488 1.76 @ 8 Frequency Conversion of Ti:Sapphire laser wavelengths Frequency doubling and tripling allow access to the green, blue and ultraviolet spectral regions. While the frequency conversion by Optical Parametric Generation offers wide tuning range in the nearinfrared spectral region, it is often sufficient to tune the Ti:sapphire wavelength for tuning the OPO, rather Intensity, a.u. 1..8.6.4. absorption Standard product specifications Orientation Ti O 3 concentration.3.5 wt % Figure of Merit > 15 Size End configurations End flatness Parallelism Surface finishing Wavefront distortion fluorescence 4 5 6 7 8 9 optical axis C normal to rod axis up to dia and up to 13 length flat/flat or Brewster/Brewster λ/1 @ 633 1 arcsec 1/5 scratch/dig λ/4 inch Note: To inquire or order a finished Ti:Sa laser rod, please provide detailed specifications. Dopant concentration, size of crystal and end configuration are essential specifications. than tuning the OPO itself, e.g. by actively affecting the phase-matching conditions. Further wavelength extension to mid infrared range is possible by Difference Frequency Generation employing signal and idler wavelength pulses obtained from OPO. Crystals selection for Ti:Sapphire laser frequency conversion Thin BBO crystals for SHG @ 8 35 45 range Thin BBO crystals for THG @ 8 3 3 range Thin BBO crystals for OPG/OPA @ pump 8 15 3 range Thin BBO crystals for OPG/OPA @ pump 4 48 3 range AgGaS crystals for DFG 5-1 range 4.1 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

FemtoLine Laser & Nonlinear Crystals Thin BBO crystals for SHG and THG of Ti:Sapphire laser wavelength Free Standing BBO Crystals Crystals down to 1 µm can be manufactured as free standing crystals (not attached to any kind of support). However, ring mounts are highly recoended for safe handling of these thin crystals. Minimum aperture of free standing BBO is 5 5, maximum aperture is. The tolerance is ±5 µm for crystals of thickness down to 3 µm and ± µm for crystals of thickness down to 1 µm. Optically contacted crystals BBO crystals less than 1 µm thickness can be supplied optically contacted on UV Fused Silica substrate sizes 1 1 1 Standard specifications of ultrathin BBO crystals or 1 1. Other sizes of substrates are also available on request. Minimum aperture of optically contacted BBO is 5 5, maximum aperture is 1 1. The tolerance of crystal thickness is +1/-5 microns. Protective s for BBO crystals P-protective coating is a single or two layer antireflection coating made at specified wavelength range. Typical reflection values are R<% in the mid range, R<4% at the edges. P coating is highly recoended for ultrashort pulse applications and features low dispersion and very high laser damage threshold. 5 Flatness Parallelism Perpendicularity Angle tolerance Aperture tolerance Surface quality Clear aperture λ/8 @ 633 < arcsec < 5 arcmin < 3 arcmin ±.1 1/5 scratch & dig per MIL-O-1383A >9% of full aperture Reflection, % 4 3 1 4 5 6 7 8 9 1 11 W avelength λ, Typical P-coating for BBO SHG@8 application EKSMA OPTICS recoends the following thickness BBO crystals depending on application and fundamental wavelength pulse duration, assuming it is spectrum limited Gausian pulse. Application Pulse duration, fs Thickness, 1.5.1 Type 1, SHG @ 8 5. Θ=9., φ=9 1.5 1 1.1. Type 1, THG @ 8 5.5 Θ=44,3, φ=9 1.1. Visit www.eksmaoptics.com for new products and prices 4.

BBO for SHG @ 8 BBO crystal, Thickness =.5 * UV FS support size, BBO-6 6x6 1x1x 9. 9 P/P@4-8 75 BBO-8 8x8 1x1x 9. 9 P/P@4-8 76 BBO-1 1x1 1x1x 9. 9 P/P@4-8 85 * All BBO crystals of thickness less than 1 μm are optically contacted onto UVFS support. SHG BBO crystals, Thickness =.1 Reflection, % 5 4 3 1 4 5 6 7 8 9 1 11 W avelength λ, P-protective coating curve of Type 1 (θ=9., φ=9 ) BBO crystal used for SHG@8 BBO-61 6x6 9. 9 P/P@4-8 455 BBO-81 8x8 9. 9 P/P@4-8 66 BBO-11 1x1 9. 9 P/P@4-8 675 BBO-11 1x1 9. 9 P/P@4-8 96 BBO-151 15x15 9. 9 P/P@4-8 139 BBO-1 x 9. 9 P/P@4-8 64 BBO-1 x 9. 9 P/P@4-8 339 SHG BBO crystal, Thickness =.5 BBO-63 6x6 9. 9 P/P@4-8 36 BBO-83 8x8 9. 9 P/P@4-8 575 BBO-13 1x1 9. 9 P/P@4-8 61 BBO-13 1x1 9. 9 P/P@4-8 89 BBO-153 15x15 9. 9 P/P@4-8 135 BBO-3 x 9. 9 P/P@4-8 455 BBO-3 x 9. 9 P/P@4-8 315 Housing Accessories Ring Holders for Nonlinear Crystals See page.4 SHG BBO crystal, Thickness =. BBO-6 6x6 9. 9 P/P@4-8 455 BBO-8 8x8 9. 9 P/P@4-8 66 BBO-1 1x1 9. 9 P/P@4-8 675 BBO-1 1x1 9. 9 P/P@4-8 93 BBO-15 15x15 9. 9 P/P@4-8 136 BBO- x 9. 9 P/P@4-8 59 BBO- x 9. 9 P/P@4-8 334 SHG BBO crystal, Thickness = 1 BBO-64 6x6 9. 9 P/P@4-8 6 BBO-84 8x8 9. 9 P/P@4-8 51 BBO-14 1x1 9. 9 P/P@4-8 575 BBO-14 1x1 9. 9 P/P@4-8 86 BBO-154 15x15 9. 9 P/P@4-8 15 BBO-4 x 9. 9 P/P@4-8 85 BBO-4 x 9. 9 P/P@4-8 93 SHG BBO crystal, Thickness = BBO-65 6x6 9. 9 P/P@4-8 6 BBO-85 8x8 9. 9 P/P@4-8 57 BBO-15 1x1 9. 9 P/P@4-8 78 BBO-15 1x1 9. 9 P/P@4-8 115 BBO-155 15x15 9. 9 P/P@4-8 137 BBO-5 x 9. 9 P/P@4-8 7 BBO-5 x 9. 9 P/P@4-8 336 Positioning Mount 84-199 for Nonlinear Crystal Housing See page.6 4.3 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

FemtoLine Laser & Nonlinear Crystals BBO for THG @ 8 BBO crystal, Thickness =.1 * UV FS support size, BBO-66 6 6 1 1 44.3 9 P/P@4-8/66 795 BBO-86 8 8 1 1 44.3 9 P/P@4-8/66 83 BBO-16 1 1 1 1 44.3 9 P/P@4-8/66 95 BBO crystal, Thickness =. * UV FS support size, BBO-67 6 6 1 1 44.3 9 P/P@4-8/66 79 BBO-87 8 8 1 1 44.3 9 P/P@4-8/66 8 BBO-17 1 1 1 1 44.3 9 P/P@4-8/66 915 BBO crystal, Thickness =.5 * UV FS support size, BBO-68 6 6 1 1 44.3 9 P/P@4-8/66 75 BBO-88 8 8 1 1 44.3 9 P/P@4-8/66 76 BBO-18 1 1 1 1 44.3 9 P/P@4-8/66 85 * All BBO crystals of thickness less than 1 μm are optically contacted onto UVFS support. THG BBO crystal, Thickness =. BBO-61 6 6 44.3 9 P/P@4-8/66 455 BBO-81 8 8 44.3 9 P/P@4-8/66 66 BBO-11 1 1 44.3 9 P/P@4-8/66 675 BBO-11 1 1 44.3 9 P/P@4-8/66 93 BBO-151 15 15 44.3 9 P/P@4-8/66 136 BBO-1 44.3 9 P/P@4-8/66 59 BBO-1 44.3 9 P/P@4-8/66 334 THG BBO crystal, Thickness =.1 BBO-69 6 6 44.3 9 P/P@4-8/66 455 BBO-89 8 8 44.3 9 P/P@4-8/66 66 BBO-19 1 1 44.3 9 P/P@4-8/66 675 BBO-19 1 1 44.3 9 P/P@4-8/66 96 BBO-159 15 15 44.3 9 P/P@4-8/66 139 BBO-9 44.3 9 P/P@4-8/66 64 BBO-9 44.3 9 P/P@4-8/66 339 THG BBO crystal, Thickness = 1 THG BBO crystal, Thickness =.5 BBO-61 6 6 44.3 9 P/P@4-8/66 6 BBO-81 8 8 44.3 9 P/P@4-8/66 51 BBO-11 1 1 44.3 9 P/P@4-8/66 575 BBO-11 1 1 44.3 9 P/P@4-8/66 86 BBO-151 15 15 44.3 9 P/P@4-8/66 15 BBO-1 44.3 9 P/P@4-8/66 85 BBO-1 44.3 9 P/P@4-8/66 93 Note For very high power (TW) laser systems LBO and KDP crystals can be supplied with Clear Apertures up to 35 and 6 diameters respectively. Housing Accessories Ring Holders for Nonlinear Crystals See page.4 Positioning Mount 84-199 for Nonlinear Crystal Housing See page.6 Reflection, % 4 3 1 5 3 35 4 45 P-protective coating curve of Type 1 (θ=44.3, φ=9 ) BBO crystal's exit face used for THG@8 BBO-611 6 6 44.3 9 P/P@4-8/66 36 BBO-811 8 8 44.3 9 P/P@4-8/66 575 BBO-111 1 1 44.3 9 P/P@4-8/66 61 BBO-111 1 1 44.3 9 P/P@4-8/66 89 BBO-1511 15 15 44.3 9 P/P@4-8/66 135 BBO-11 44.3 9 P/P@4-8/66 455 BBO-11 44.3 9 P/P@4-8/66 315 Zero Order Dual Wavelength Plates See page 4.16 Visit www.eksmaoptics.com for new products and prices 4.4

Third harmonic generation of Ti:Sapphire laser kits new Kits consist of set of components required for efficient third harmonic generation of femtosecond Ti:Sapphire laser. The scheme of the efficient third harmonic generation is presented on the right. 8 Angular adjustment axis Zero order λ/ @ 8 and λ @ 4 dual waveplate Angular adjustment axis 4 8 8 4 8 4 4 8 Type 1 SHG BBO Complete standard kit includes: Type 1 SHG BBO crystal with 6x6 aperture, P-coated @ 4-8, Type 1 THG BBO crystal with 6x6 aperture, P-coated @ 4-8/66, Calcite plate for group delay compensation, AR coated @ 8+4, Zero order dual waveplate, optically contacted, AR coated @ 8+4 (code 465-411), All above four components are mounted in to 1 inch ring holders for convenient handling. The thickness of SHG BBO crystal, THG BBO crystal and group delay compensation plate is different in each kit and is optimal for certain pulse duration of fundamental harmonic to avoid harmonic pulses broadening. Group Delay compensation plate Type 1 THG BBO We offer four standard kits for different fundamental pulse duration: Fundamental pulse duration Kit code fsec FK-8-151 1 fsec FK-8-1 161 5 fsec FK-8-5 1975 fsec FK-8-4 Non-standard kits with larger apertures of BBO crystals and thicknesses optimal for other pulse durations are available on request. Kinematic positioning mount 84-199 for tilt and tip fine adjustment and 36 rotation See page.6 4.5 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com

FemtoLine Laser & Nonlinear Crystals Thin AgGaS Crystals for DFG.5-1.3 µm Standard specifications Flatness Parallelism Perpendicularity Angle tolerance Aperture tolerance Surface quality Clear aperture λ/6 @ 633 < arcsec < 1 arcmin < 3 arcmin ±.1 1/5 scratch & dig per MIL-O-1383A >9% of full aperture BBAR s for AgGaS crystals BBAR coating is multilayer dialectric antireflection coating made at specified wavelength range. Standard coating is designed to reduce reflection losses at input side at 1.1-.6 micron range and output side at.6-11 micron range Typical reflection values are R<.5% in the mid range, and up to reflection values of uncoated crystal at the edges of given ranges. BBAR coating is designed to minimise dispersion of ultrashort pulses and also features high damage threshold. Size, Orientation AgGaS W H L θ φ AGS-41 5 5 1 39 45 AGS-4 6 6 5 BBAR/BBAR @ 1.1-.6 /.6-11 μm BBAR/BBAR @ 1.1-.6 /.6-11 μm Application OPO @ 1.-.4 μm ->.4-11 μm 575,- OPO @ 1.-.4 μm ->.4-11 μm 645,- 1 1 Generated wavelength, microns 1 8 6 4 Generated wavelength, microns 1 8 6 4 3 34 36 38 4 4 44 46 Phase matching angle, Type 1 DFG (e-o=o) in AGS. DFG of signal and idler generated in BBO pumped at 8 Housing Accessories Ring Holders for Nonlinear Crystals See page.4 36 4 44 48 5 56 6 64 68 7 Phase matching angle, Type DFG (e-o=e) in AGS. DFG of signal and idler generated in BBO pumped at 8 Positioning Mount 84-199 for Nonlinear Crystal Housing See page.6 Visit www.eksmaoptics.com for new products and prices 4.6

Yb:KGW and Yb:KYW Crystals laser lines and harmonics High absorption coefficient at 981 High stimulated emission cross section Low laser threshold Extremely low quantum defect λ pump / λ se Broad polarized output at 13 16 High slope efficiency with diode pumping (~ 6%) High Yb doping concentration -19 σ, *1 cm 3 1.4.3..1..4.3..1 E Nm E Np E Ng Yb:KGW and Yb:KYW crystals have broad emission bandwidths and are used as lasing materials to generate ultrashort (~1- fs) high power pulses. Direct pump of Yb:KGW/KYW crystals with laser diodes operating at 981 supports compact laser systems. Yb:KGW/KYW laser generates pulses at 13 16 wavelength range. Also Yb:KGW and Yb:KYW can be used as ultrashort pulse amplifiers. We believe that Yb:KGW and Yb:KYW are some of the best materials for high power thin disk lasers generating femtosecond pulses. Properties of Yb:KGW and Yb:KYW Custom manufacturing capabilities Various shapes (slabs, rods, cubes, disks) Different dopant levels Diversified coatings Attractive prices for introductory quantities to OEMs Name Yb:KGW Yb:KYW Yb 3+ concentration.5 5%.5 1% Crystal structure monoclinic monoclinic Point group C/c C/c Lattice parameters Thermal expansion Thermal conductivity a=8.95 Å, b=1.43 Å, c=7.588 Å, β=94.43 α a =4 1-6 / C, α b =3.6 1-6 / C, α c =8.5 1 K a =.6 W/mK, K b =3.8 W/mK, K c =3.4 W/mK a=8.5 Å, b=1.35 Å, c=7.54 Å, β=94 Density 7.7 g/cm 3 6.61 g/cm 3 Mohs hardness 4 5 4 5 Melting temperature 175 C Transmission range.35 5.5 µm.35 5.5 µm Refractive indices (λ=1.6 µm) n g =.37, n p =1.986, n m =.33 n/ t.4 1-6 K -1.4 1-6 K -1 Laser wavelength 13 16 15 158 Fluorescence lifetime.3 ms.3 ms Stimulated emission cross section (E a).6 1 - cm 3 1 - cm Absorption peak and bandwidth α a =6 cm -1, λ=981, λ=3.7 α a =4 cm -1, λ=981, λ=3.5 Absorption cross section 1. 1-19 cm 1.33 1-19 cm Lasing threshold 35 mw 7 mw Stark levels energy (in cm -1 ) of the F 5/ manifolds of Yb 3+ @ 77K Stark levels energy (in cm -1 ) of the F 7/ manifolds of Yb 3+ @ 77K Emission Absorption. 88 9 96 1 14 18 Absorption and stimulated emission cross sections of Yb:KYW - Cross section, 1 cm 1 absorbtion 168, 1471, 1188 1695, 1476, 1187 8 1 6 E b 3 4 6 E c 4 535, 385, 163, 568, 47, 169, E a 88 9 96 1 14 9 96 1 14 18 Absorption and emission spectrae of Yb(5%):KGW 15 4 5 emission E a E b E c 4.7 Optolita UAB Tel.: +37 5 7 99 Fax: +37 5 7 9 99 info@eksmaoptics.com www.eksmaoptics.com