Optical Coatings
Optical Coatings
Optical Coatings
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Fundamental Optics<br />
Laser-Line MAX-R <strong>Coatings</strong>, Normal Incidence<br />
Laser-Line MAX-R <strong>Coatings</strong>, 45-Degree Incidence<br />
Minimum<br />
Reflectance R p (%)<br />
Minimum<br />
Reflectance R p (%)<br />
Wavelength<br />
(nm)<br />
Laser Type<br />
0º<br />
Incidence<br />
0º±15°<br />
Incidence<br />
COATING<br />
SUFFIX<br />
Wavelength<br />
(nm)<br />
Laser Type<br />
45º<br />
Incidence<br />
45º±10°<br />
Incidence<br />
COATING<br />
SUFFIX<br />
Material Properties <strong>Optical</strong> Specifications Gaussian Beam Optics<br />
193<br />
248<br />
266<br />
308<br />
351<br />
364<br />
442<br />
458<br />
466<br />
473<br />
476<br />
488<br />
496<br />
502<br />
514<br />
532<br />
543<br />
633<br />
670<br />
694<br />
780<br />
830<br />
850<br />
904<br />
1064<br />
1300<br />
1523<br />
1550<br />
ArF<br />
KrF<br />
Nd:YAG 4th harm.<br />
XeCl<br />
Ar ion<br />
Ar ion<br />
HeCd<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Nd:YAG 2nd harm.<br />
HeNe<br />
HeNe<br />
GaAlAs<br />
Ruby<br />
GaAlAs<br />
GaAlAs<br />
GaAlAs<br />
GaAs<br />
Nd:YAG<br />
InGaAsP<br />
HeNe<br />
InGaAsP<br />
97.0<br />
98.0<br />
98.0<br />
99.0<br />
99.0<br />
99.0<br />
99.3<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.2<br />
99.2<br />
99.2<br />
99.2<br />
94.0<br />
95.0<br />
95.0<br />
96.0<br />
96.0<br />
96.0<br />
99.0<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
Note: To order, append coating suffix to product number.<br />
/201<br />
/202<br />
/203<br />
/204<br />
/205<br />
/207<br />
/209<br />
/211<br />
/213<br />
/215<br />
/217<br />
/219<br />
/221<br />
/222<br />
/223<br />
/225<br />
/226<br />
/229<br />
/228<br />
/231<br />
/233<br />
/237<br />
/238<br />
/239<br />
/241<br />
/245<br />
/247<br />
/247<br />
193<br />
248<br />
266<br />
308<br />
351<br />
364<br />
442<br />
458<br />
466<br />
473<br />
476<br />
488<br />
496<br />
502<br />
514<br />
532<br />
543<br />
633<br />
670<br />
694<br />
780<br />
830<br />
850<br />
904<br />
1064<br />
1300<br />
1523<br />
1550<br />
ArF<br />
KrF<br />
Nd:YAG 4th harm.<br />
XeCl<br />
Ar ion<br />
Ar ion<br />
HeCd<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Ar ion<br />
Nd: YAG 2nd harm.<br />
HeNe<br />
HeNe<br />
GaAlAs<br />
Ruby<br />
GaAlAs<br />
GaAlAs<br />
GaAlAs<br />
GaAs<br />
Nd:YAG<br />
InGaAsP<br />
HeNe<br />
InGaAsP<br />
97.0<br />
98.0<br />
98.0<br />
98.0<br />
98.0<br />
98.0<br />
99.0<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.3<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.5<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
99.0<br />
94.0<br />
95.0<br />
95.0<br />
95.0<br />
96.0<br />
96.0<br />
98.0<br />
98.0<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.5<br />
98.0<br />
98.5<br />
98.5<br />
98.5<br />
Note: To order, append coating suffix to product number.<br />
/251<br />
/252<br />
/253<br />
/254<br />
/255<br />
/257<br />
/259<br />
/261<br />
/263<br />
/265<br />
/267<br />
/269<br />
/271<br />
/272<br />
/273<br />
/275<br />
/276<br />
/279<br />
/278<br />
/281<br />
/283<br />
/287<br />
/288<br />
/289<br />
/291<br />
/295<br />
/297<br />
/297<br />
SPHERICAL AND CYLINDRICAL MIRRORS<br />
<strong>Optical</strong> <strong>Coatings</strong><br />
Virtually any of our mirror coatings can be applied to standard optical components. Common examples include using<br />
plano-concave lenses to make spherical concave mirrors or coating plano-convex lenses to make secondary mirrors for<br />
Cassegrain beam expanders or telescopes. The radius of curvature of any of our simple lenses can be calculated using<br />
the data given in the product tables together with the formulas presented at the end of Chapter 1, Fundamental<br />
Optics.<br />
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