Name: 515, 1030nm, 12.7mm Dia., Dual Band Low GDD Mirror
Brand: TECHSPEC
SKU: 17-286
Price: ₹13,833.00

515, 1030nm, 12.7mm Dia., Dual Band Low GDD Mirror

Stock #17-286 10 to 12 days

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₹13,833.00

Qty 1-5
₹13,833.00

Qty 6+
₹12,267.00

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Angle of Incidence (°):

Coating:

Ultrafast (500-540, 1000-1070nm)

Design Wavelength DWL (nm):

515, 1030

Diameter (mm):

12.70 +0/-0.1

Fused Silica (Corning 7980)

Surface Quality:

10-5

Thickness (mm):

6.35 ±0.20

Type:

Laser Mirror

Typical Applications:

Beam transport of 1st and 2nd harmonic of Yb:doped lasers

Parallelism (arcmin):

Clear Aperture (%):

>86

Back Surface:

Commercial Polish

Coating Specification:

R_s>99.9% @500-540nm
R_p>99.8% @507-527nm
R_s>99.9% @1000-1070nm
R_p>99.8% @1005-1070nm

Wavelength Range (nm):

500 - 540, 1000 - 1070

Surface Flatness (P-V):

<λ/8 @ 632.8nm over 9mm aperture

Coating Type:

S1: Dielectric
S2: Stress-compensating

GDD Specification:

<35fs² @ 500 - 540nm (s-pol)
<50fs² @ 510 - 525nm (p-pol)
<20fs² @ 1000 - 1070nm (s-pol)
<40fs² @ 1010 - 1055nm (p-pol)

Regulatory Compliance

RoHS:

Compliant

Certificate of Conformance:

View

Product Family Description

High Reflectivity & Low Group Delay Dispersion (GDD) for Ultrafast Beam Steering
Ion-Beam Sputtered (IBS) Coatings Minimize Scatter and Absorption Losses
Near-Zero GDD for Both the First and Second Harmonics of Ti:sapphire and Yb-doped Lasers

TECHSPEC® Dual Band Low GDD Ultrafast Mirrors maintain high reflectivity and near-zero group delay dispersion over both the first and second harmonic of Ti:sapphire and Yb-doped lasers. Utilizing Ion-Beam Sputtered Coating Technology, these mirrors minimize scatter and absorption loss commonly observed when using other traditional coating application processes. TECHSPEC® Dual Band Low GDD Ultrafast Mirrors are often used in beam steering applications as they will maintain ultrashort pulse durations that can be difficult to preserve when using more conventional laser mirrors. These mirrors are ideal for second-harmonic generation (SHG) microscopy and spectroscopy applications as well as for frequency resolved optical gating (FROG).