KD*P Used pro Duplici, Triplicatione et Quadruplici Nd: YAG Laser Featured Image

KD*P Used pro duplicatione, triplicatione et quadruplicatione Nd:YAG Laser

Brevis descriptio:

KDP et KD*P sunt materiae opticae nonlineae, insignitae magno limine damni, coefficientes optici nonlineares et coefficientes electro-optici. Adhiberi potest ad duplicationem, triplicem et quadruplicem Nd:YAG laser ad cella temperies, et modulatores electro-optici.

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Product Description

Maxime popularis materia mercatorum NLO est potassium dihydrogenium phosphatum (KDP), quod coefficientes NLO relative humilis habet, sed transmissio UV fortis, magnum limen damnum, et birefringentia alta. Saepe a Nd:YAG laser binos, tres vel quattuor multiplicare consuevit (tempore constanti). KDP etiam in modulatoribus EO, Q-smitationibus, aliisque machinis ob suam superiori homogeneitatem opticam et coefficientes EO coefficientes usus est.
Ad praedictas applicationes, negotium nostrum offert commeatus moles crystallorum KDP summus qualitas in amplitudines amplitudinum, necnon delectu crystalli formato, consilio et operas expediendi.
KDP series cellulae Pockets saepe in systematis laseris adhibentur cum magna diametri, alta potentia, et parvae latitudinis leguminis ob notas superiores physicas et opticas. Una optimarum EO Q-sagittas, adhibentur in systemata laserarum OEM, lasers medicas et medicamine, rostra laserarum R&D versatiles, et systemata laseris militaris et aerospace.

Features & Typical Applications
Maximum optical damnum limina et alta birefringence
Bene UV transmissio
Electro-optical modulator et Q virgas
● Secunda, tertia, et quarta generatio harmonica, geminatio frequentiae Nd:YAG laser
Excelsa potentia laser frequency conversionem materialem

Basic Properties

Basic Properties	KDP	KD*P
Formulae chemica	KH2PO4	KD2PO4
Perspicuus dolor	200-1500nm	200-1600nm
Nonlinear Coefficientes	d36=0.44pm/V	d36=0.40pm/V
Index refractivus (ad 1064nm)	no=1.4938, ne=1.4599	no=1.4948, ne=1.4554
Absorptio	0.07/cm	0.006/cm
Optical DamageThreshold	>5 GW/cm2	>3 GW/cm2
Ratio exstinctio	30dB
Sellmeier aequationes KDP (λ in um)
no2 = 2.259276 + 0.01008956/(λ2 - 0.012942625) +13.005522λ2/(λ2 - 400) ne2 = 2.132668 + 0.008637494/(λ2 - 0.012281043) + 3.2279924λ2/(λ2 - 400)
Sellmeier aequationes K*DP(λ in um)
no2 = 1.9575544 + 0.2901391/(λ2 - 0.0281399) - 0.02824391λ2+0.004977826λ4 ne2 = 1.5005779 + 0.6276034/(λ2 - 0.0131558) - 0.01054063λ2 +0.002243821λ4