JML Optical

JML Optical Industries, LLC

The Complete Source for Custom Precision Optics

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Standard Coatings Performance Graphs

The performance graphs for JML Optical's antireflective coatings are immediately below.

Select Reflective to jump to the reflective coating graphs, Beamsplitter to go to beamsplitter graphs or Hot/Cold for hot and cold mirror coating graphs.

Antireflective Coatings

 
Single-Layer MgF2 (Suffix: 100)
Broadband Visible

High-Efficiency Visible Antireflection
(Suffix: 101) Broadband Dielectric Multi-Layer

 


High-Efficiency Visible Antireflection
(Suffix: 102) Broadband Dielectric Multi-Layer

  
High-Efficiency Ultraviolet Antireflection
(Suffix: 103) Broadband Dielectric Multi-Layer
 
High Efficiency Antireflection (Suffix: 104)
Broadband in Visible with AR at 1.064µ
 
High Efficiency Broadband Antireflection (Suffix:106)
on High-Index Glass (Index = 1.66 - 1.95)

 

High-Efficiency Antireflection
on Fused Silica (Suffix: 107)
Broadband: 350-450nm/
Dielectric Multi-Layer



High Power High-Efficiency
Antireflection (Suffix: 109)
Broadband: 780-850nm/
Dielectric Multi-Layer


High-Efficiency Antireflection (Suffix 110) Broadband
780-850nm/Dielectric Multi-Layer
High-Efficiency Antireflection (Suffix: 111) Broadband Visible at 45º Angle of Incidence/Dielectric Multi-Layer

 
High-Efficiency Antireflection (Suffix: 115)
Broadband 1520-1620nm/
Dielectric Multi-Layer
High-Efficiency Antireflection (Suffix: 116)
Broadband 400-1000nm/
Dielectric Multi-Layer

 
High-Efficiency Broadband IR
 Antireflection on SI (Suffix: 191)
  
High-Efficiency Broadband IR
Antireflection on Ge (Suffix: 192)

 
High-Efficiency Broadband IR Antireflection on
Zinc Sulfide (Suffix: 193)
  
HeNe Laser V-Coating (Suffix: 200)
632.8nm/Dielectric Multi-Layer

 
Laser Diode V-Coating (Suffix: 201) 780nm/
Dielectric Multi-Layer
  
YAG Laser V-Coating (Suffix: 202) 1064nm/
Dielectric Multi-Layer

 
YAG Laser V-Coating (Suffix: 203)
1064nm for 45º/
Dielectric Multi-Layer
  
V-Coating (Suffix: 205) 1053nm/
Dielectric Multi-Layer


 
Dual Band V-Coating (Suffix: 206) Normal Angle of Incidence Shown at 530 and 1064nm
  

Coating for Laser Wavelengths Capable of
Handling Extremely High power on Fused Silica
(Suffix: 207) Show an 1.06 microns

 

Dual Band V-Coating (Suffix: 208)
 Designed for an Angle of Incidence
 of 45º Shown at 530 and 1064nm
V-Coating (Suffix: 209) 488nm/Dielectric Multi-Layer


V-Coating (Suffix: 210) 830nm/Dielectric Multi-Layer
  
V-Coating (Suffix: 211) 1210nm/Dielectric Multi-Layer

 
V-Coating (Suffix: 212) 1550nm/Dielectric Multi-Layer
  
V-Coating (Suffix: 213) 685nm/Dielectric Multi-Layer

 
V-Coating (Suffix: 214) 670nm/Dielectric Multi-Layer
  
V-coating (Suffix: 215) 532nm/Dielectric Multi-Layer

 
V-Coating (Suffix: 216) 850nm/Dielectric Multi-Layer
  
High-Efficiency Antireflection (Suffix: 220)
Broadband: 350-540nm/Dielectric Multi-Layer

 
V-Coating (Suffix: 221) 810nm/
Dielectric Multi-Layer
  
High-Power V-Coating (Suffix: 222) 532nm/
Dielectric Multi-Layer

 

High-Efficiency Antireflection (Suffix: 223)
Broadband 480-640nm for 488nm and 632nm
Lasers/Dielectric Multi-Layer

High Power V-Coating (Suffix: 224)
 780nm/Dielectric Multi-Layer

 
V-Coating (Suffix: 225) 905nm/Dielectric Multi-Layer
V-Coating (Suffix: 227) 780nm at 45º Angle of Incidence

 
V-Coating (Suffix: 230) 364nm 0-30º Angle of Incidence/
Dielectric Multi-Layer
  
V-Coating (Suffix: 231) 410nm 0-30º Angle of Incidence/
Dielectric Multi-Layer

 
V-Coating (Suffix: 232) 442nm 0-30º Angle of Incidence/
Dielectric Multi-Layer
V-Coating (Suffix: 233) 488nm 0-30º Angle of Incidence/
Dielectric Multi-Layer


V-Coating (Suffix: 234) 532nm 0-30º Angle of Incidence/
Dielectric Multi-Layer
 
V-Coating (Suffix: 235) 633nm 0-30º Angle of Incidence/
Dielectric Multi-Layer

 
V-Coating (Suffix: 236) 780nm 0-30º Angle of Incidence/
Dielectric Multi-Layer
V-Coating (Suffix: 237) 810nm 0-30º Angle of Incidence/
Dielectric Multi-Layer

 
V-Coating (Suffix: 238)
1064nm 0-30º Angle of Incidence/
Dielectric Multi-Layer

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Reflective Coatings

 
Aluminum First Surface With Quartz Overcoat (Suffix: 300)
  
Enhanced Aluminum (Suffix: 301) Visible

 
Ultraviolet Aluminum
(Suffix: 302) Broadband
  


Second-Surface Aluminum
(Suffix: 303) Broadband Visible
and Near-Infrared/Metal
and Black Lacquer

 
Second-Surface Silver
(Suffix: 304) Broadband Visible
 and Near-Infrared /Metal
and Black Lacquer
  
Very Durable Projected Gold
(Suffix: 306) Broadband:
 Infrared/Metal and Dielectric

 
Electro-Deposited Rhodium
 (Suffix: 307) Broadband Visible
 and Infrared/Metal
  
Electro-Deposited Gold
(Suffix: 308) Broadband Visible
and Infrared/Metal

 

Enhanced Silver (Suffix: 309)
 Broadband Visible and
 Infrared/Metal and Dielectric
  
Protected Aluminum + MgF²
(Suffix: 310) Reflective for UV




Enhanced Silver (Suffix: 311) Broadband Visible
and Infrared for 0º to 30º Angle of Incidence/
Metal and Dielectric
High Reflectivity Dual Band
for 633 and 1064nm
(Suffix: 312) Dielectric Multi-Layer

 
Enhanced Aluminum
(Suffix: 313) 410nm Reflective
Enhanced Aluminum
(Suffix: 315) 190nm

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Hot and Cold Mirror Coatings

 
Hot Mirror Coating at 0º
Angle of Incidence (Suffix: 404)
Broadband Dielectric Multi-Layer
  
Hot Mirror Coating at 45º
Angle of Incidence (Suffix: 405)
Broadband Dielectric Multi-Layer

 
Cold Mirror Coating at 0º
Angle of Incidence (Suffix: 406)
Broadband Dielectric Multi-Layer
  
Cold Mirror Coating at 45º
Angle of Incidence (Suffix: 407)
 Broadband Dielectric Multi-Layer


 
High Reflectivity HeNe Laser 
633nm for 0º Angle of Incidence
(Suffix: 501) Dielectric Multi-Layer
  
High Reflectivity (Suffix: 502)
Dual Band for 488 and 532nm
 Dielectric Multi-Layer


 
High Reflectivity for 780nm
 (Suffix: 503) Dielectric Multi-Layer
  

High Reflectivity Nd: YAG Laser
 Mirror Coating at 45"
Angle of Incidence (Suffix: 505)
 1064nm/Dielectric Multi-Layer

 
High-Reflective Dielectric 
(Suffix: 506) 550-650nm 0º
Angle of Incidence
50/50, Flat Response,
Neutral Density Beamsplitter
 (Filter)/Plate Type (Suffix: 601)


Beamsplitter Coatings

 
Broadband 50/50 Cube
Beamsplitter on BK7
All Dielectric (Suffix: 603)
  
Broadband 50/50 Plate
Beamsplitter on BK7
All Dielectric (Suffix: 604)

 
70%Transmission/30% 
Reflectance Plate Type
 Beamsplitter (Suffix: 605)
632.8nm
  
50/50 Plate Type
Beamsplitter (Suffix: 607)
780nm for 45º Angle of Incidence

 
Very Broadband Cube Polarizer
on High Index Glass (Suffix: 715)

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OPTICAL CALCULATOR

 calculator

Easy access to formulae for commonly used calculations and conversions.

FEATURED NEWS

JML Optical Announces New CFO

Mr. Leonard (Len) DiSalvo has joined us as our Chief Financial Officer.