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公开(公告)号:US07230684B2
公开(公告)日:2007-06-12
申请号:US10962134
申请日:2004-10-07
Applicant: John R. Staley, III , Frank C. Sulzbach
Inventor: John R. Staley, III , Frank C. Sulzbach
IPC: G01C3/08
CPC classification number: F41G3/065 , G01S7/4812 , G01S7/4818
Abstract: An apparatus has a rangefinder portion that includes: a radiation generator which emits radiation having a selected wavelength; a radiation detector which detects radiation having the selected wavelength; and an optical portion which includes a non-reciprocal optical part. The optical portion routes radiation emitted by the radiation generator at the selected wavelength through the non-reciprocal optical part and then through an aperture toward a location remote from the apparatus, and also routes radiation received via the aperture at the selected wavelength through the non-reciprocal optical part and then to the radiation detector.
Abstract translation: 一种装置具有测距部分,其包括:发射具有所选波长的辐射的辐射发生器; 检测具有选定波长的辐射的辐射检测器; 以及包括不可逆光学部件的光学部分。 光学部分将辐射发生器所发射的辐射通过不可逆的光学部分传送到选定的波长,然后通过孔向远离装置的位置传播, 互补光学部件,然后到辐射探测器。
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公开(公告)号:US5537246A
公开(公告)日:1996-07-16
申请号:US421136
申请日:1995-04-13
Applicant: Frank C. Sulzbach , Valeria J. Epling
Inventor: Frank C. Sulzbach , Valeria J. Epling
CPC classification number: C23C14/0694 , C23C14/022 , C23C14/0623 , G02B1/115 , G02B5/281
Abstract: Durable thorium fluoride, low reflectance, high transmittance coatings for germanium (zinc sulfide, zinc selenide, gallium arsenide) exterior window surfaces are replaced using magnesium fluoride, a material previously not considered applicable to the 8 to 12 .mu.m wavelength range. This is enabled by the use of argon ion bombardment of the growing film. This method reduces the intrinsic stress of deposited films and permits growth of magnesium fluoride films of sufficient thickness to be used on the exterior surface of IR windows.
Abstract translation: 使用氟化镁(以前不被认为适用于8至12μm波长范围的材料)来替换锗(硫化锌,硒化锌,砷化镓)外部窗口表面的耐用钍氟化物,低反射率,高透光率涂层。 这可以通过使用生长膜的氩离子轰击来实现。 该方法降低了沉积膜的固有应力,并允许在IR窗口的外表面上使用足够厚度的氟化镁膜的生长。
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3.发明授权Method of forming a durable wideband anti-reflection coating for infrared windows 失效形成用于红外窗户的耐用宽带防反射涂层的方法
公开(公告)号:US5502442A
公开(公告)日:1996-03-26
申请号:US474809
申请日:1995-06-07
Applicant: Frank C. Sulzbach
Inventor: Frank C. Sulzbach
CPC classification number: H01Q17/00 , C23C14/18 , C23C16/0272 , C23C16/26 , Y10S427/103 , Y10T428/30
Abstract: An ultra hard, wideband anti-reflection coating for an IR window, such as GaAs, which resists environmental and chemical attack. The coating is designed to allow spectral transmission therethrough in a wide band, namely the 3 to 12 micron range. A cladding layer is formed on the GaAs window. A first diamond like carbon (DLC) layer is then formed on the first bonding layer. A bonding layer is formed on the first DLC layer and a second DLC layer is formed on the bonding layer.
Abstract translation: 用于IR窗口的超硬,宽带防反射涂层,如GaAs,可抵抗环境和化学侵蚀。 涂层被设计成允许在宽带(即3至12微米)范围内的光谱透射。 在GaAs窗口上形成包覆层。 然后在第一结合层上形成第一类金刚石碳(DLC)层。 在第一DLC层上形成接合层,在接合层上形成第二DLC层。
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公开(公告)号:US5342681A
公开(公告)日:1994-08-30
申请号:US937254
申请日:1992-08-28
Applicant: Frank C. Sulzbach
Inventor: Frank C. Sulzbach
CPC classification number: F24J2/487 , C23C14/0617 , C23C14/0641 , C23C14/48 , F24J2/4652 , G02B5/22 , Y02E10/40 , Y10T428/12479 , Y10T428/12528 , Y10T428/12951 , Y10T428/249956 , Y10T428/249961 , Y10T428/265
Abstract: A light absorbing, low reflectance coating and method of fabricating the coating provided by electron beam evaporation of aluminum onto substrates bombarded with nitrogen ions to produce a randomly textured coating which traps light in a labyrinth. The coating is electrically insulating except for the first few tens of atoms which remain metallic. Absorptance exceeds 90% in the 0.4 to 16 .mu.m region. The coating is flexible and can be deposited on a polymer base.
Abstract translation: 光吸收低反射率涂层和通过电子束将铝蒸发到用氮离子轰击的衬底上提供的涂层的方法,以产生在迷宫中捕获光的无规纹理涂层。 除了保留金属的前几十个原子之外,涂层是电绝缘的。 在0.4〜16亩的地区,吸收率超过90%。 涂层是柔性的并且可以沉积在聚合物基底上。
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公开(公告)号:US07948682B2
公开(公告)日:2011-05-24
申请号:US10961790
申请日:2004-10-07
Applicant: John R. Staley, III , Frank C. Sulzbach
Inventor: John R. Staley, III , Frank C. Sulzbach
Abstract: An apparatus includes first and second portions. The first portion has optics which cause first radiation within a selected waveband to travel along a path of travel and to have a selected field of view. The second portion introduces second radiation within the selected waveband into the field of view, without any significant degradation of a transmission efficiency of the first radiation along the path of travel. The second radiation then travels with the first radiation along the path of travel.
Abstract translation: 一种装置包括第一和第二部分。 第一部分具有导致所选波段内的第一辐射沿着行进路径行进并具有所选视场的光学元件。 第二部分将所选波段内的第二辐射引入视场,而不会使第一辐射沿着行进路径的传输效率显着降低。 第二辐射随着第一辐射沿行进路径行进。
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Patent Agency Ranking
公开(公告)号:US06282010B1
公开(公告)日:2001-08-28
申请号:US09306271
申请日:1999-05-06
Applicant: Frank C. Sulzbach , Brian L. Ray , G. Sreenivas , Duane E. Carter , Henry W. Trombley , Austin L. Huang , James D. Huffman
Inventor: Frank C. Sulzbach , Brian L. Ray , G. Sreenivas , Duane E. Carter , Henry W. Trombley , Austin L. Huang , James D. Huffman
IPC: G02F103
CPC classification number: G02F1/133502
Abstract: A spatial light modulator with an anti-reflective coating (ARC) 100 integrated into its structure. The manufacturing of the device is altered to include deposition of an ARC 100, and any necessary patterning and etching to allow the elements of the array to operate properly. The ARC could reside in several places of the element structure including over the addressing circuitry 26, over a middle layer 32 or on the underside of the reflective structure 10. Micromechanical spatial light modulators, as well as non-moving modulators, such as reflective and transmissive LCD modulators can use the invention.
Abstract translation: 具有集成到其结构中的抗反射涂层(ARC)100的空间光调制器。 改变器件的制造以包括ARC 100的沉积,以及任何必要的图案化和蚀刻,以允许阵列的元件正常工作。 ARC可以驻留在元件结构的多个位置,包括在寻址电路26上方,中间层32上或反射结构10的下侧。微机械空间光调制器以及非移动调制器,例如反射和 透射式LCD调制器可以使用本发明。
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公开(公告)号:US5510186A
公开(公告)日:1996-04-23
申请号:US491510
申请日:1995-06-16
Applicant: Frank C. Sulzbach
Inventor: Frank C. Sulzbach
CPC classification number: H01Q17/00 , C23C14/18 , C23C16/0272 , C23C16/26 , Y10S427/103 , Y10T428/30
Abstract: An ultra hard, wideband anti-reflection coating for an IR window, such as GaAs, which resists environmental and chemical attack. The coating is designed to allow spectral transmission therethrough in a wide band, namely the 3 to 12 micron range. A cladding layer is formed on the GaAs window. A first diamond like carbon (DLC) layer is then formed on the first bonding layer. A bonding layer is formed on the first DLC layer and a second DLC layer is formed on the bonding layer.
Abstract translation: 用于IR窗口的超硬,宽带防反射涂层,如GaAs,可抵抗环境和化学侵蚀。 涂层被设计成允许在宽带(即3至12微米)范围内的光谱透射。 在GaAs窗口上形成包覆层。 然后在第一结合层上形成第一类金刚石碳(DLC)层。 在第一DLC层上形成接合层,在接合层上形成第二DLC层。
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8.发明授权Method for forming light absorbing aluminum nitride films by ion beam deposition 失效通过离子束沉积形成光吸收氮化铝膜的方法
公开(公告)号:US5393574A
公开(公告)日:1995-02-28
申请号:US144367
申请日:1993-11-02
Applicant: Frank C. Sulzbach
Inventor: Frank C. Sulzbach
CPC classification number: F24J2/487 , C23C14/0617 , C23C14/0641 , C23C14/48 , F24J2/4652 , G02B5/22 , Y02E10/40 , Y10T428/12479 , Y10T428/12528 , Y10T428/12951 , Y10T428/249956 , Y10T428/249961 , Y10T428/265
Abstract: A light absorbing, low reflectance coating and method of fabricating the coating provided by electron beam evaporation of aluminum onto substrates bombarded with nitrogen ions to produce a randomly textured coating which traps light in a labyrinth. The coating is electrically insulating except for the first few tens of atoms which remain metallic. Absorptance exceeds 90% in the 0.4 to 16 .mu.m region. The coating is flexible and can be deposited on a polymer base.
Abstract translation: 光吸收低反射率涂层和通过电子束将铝蒸发到用氮离子轰击的衬底上提供的涂层的方法,以产生在迷宫中捕获光的无规纹理涂层。 除了保留金属的前几十个原子之外,涂层是电绝缘的。 在0.4〜16亩的地区,吸收率超过90%。 涂层是柔性的并且可以沉积在聚合物基底上。
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公开(公告)号:US5349467A
公开(公告)日:1994-09-20
申请号:US966920
申请日:1992-10-27
Applicant: Frank C. Sulzbach , Valeria J. Epling
Inventor: Frank C. Sulzbach , Valeria J. Epling
CPC classification number: C23C14/0694 , C23C14/022 , C23C14/0623 , G02B1/115 , G02B5/281
Abstract: Durable thorium fluoride, low reflectance, high transmittance coatings for germanium (zinc sulfide, zinc selenide, gallium arsenide) exterior window surfaces are replaced using magnesium fluoride, a material previously not considered applicable to the 8 to 12 .mu.m wavelength range. This is enabled by the use of argon ion bombardment of the growing film. This method reduces the intrinsic stress of deposited films and permits growth of magnesium fluoride films of sufficient thickness to be used on the exterior surface of IR windows.
Abstract translation: 使用氟化镁(以前不被认为适用于8至12μm波长范围的材料)来替代锗(硫化锌,硒化锌,砷化镓)外部窗口表面的耐用钍氟化物,低反射率,高透光率涂层。 这可以通过使用生长膜的氩离子轰击来实现。 该方法降低了沉积膜的固有应力,并允许在IR窗口的外表面上使用足够厚度的氟化镁膜的生长。
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公开(公告)号:US6071616A
公开(公告)日:2000-06-06
申请号:US982976
申请日:1997-12-01
Applicant: Frank C. Sulzbach , Ching-Tai Chen
Inventor: Frank C. Sulzbach , Ching-Tai Chen
IPC: G02B5/00 , G02B1/11 , G02F1/1335 , G02F1/135 , G09F9/00
CPC classification number: G02F1/133502 , G02B1/11 , G02F1/133512 , G02F2001/1351 , G02F2203/12 , Y10T428/24942 , Y10T428/30
Abstract: A glass surface with a low reflectance opaque aperture coating (12). In one example the coating has two layers, in another the coating has three layers. In a third example the coating includes a filter layer structure(36). The coating can be deposited onto the glass or an antireflective coating (14). A process is included in which the opaque coating is formed. The process includes depositing the coating on an antireflective coating, then patterning and etching the opaque coating to define a clear aperture area.
Abstract translation: 具有低反射率不透光孔涂层(12)的玻璃表面。 在一个实例中,涂层具有两层,在另一层中,涂层具有三层。 在第三个例子中,涂层包括过滤层结构(36)。 涂层可以沉积在玻璃上或抗反射涂层(14)上。 包括形成不透明涂层的方法。 该方法包括将涂层沉积在抗反射涂层上,然后图案化和蚀刻不透明涂层以限定清晰的孔径区域。
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