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公开(公告)号:US10156023B2
公开(公告)日:2018-12-18
申请号:US15474139
申请日:2017-03-30
Inventor: Peter G. Schunemann , Kevin T. Zawilski
IPC: H01L25/00 , C30B25/14 , H01L31/0304 , C30B25/12 , C30B29/42
Abstract: A system and method for producing bulk GaAs with an increased carrier lifetime of at least 10 microseconds is provided. The system and method of producing the GaAs crystal involves using a technique called low pressure hydride vapor phase epitaxy (LP-HVPE). In this technique, a gas containing Ga (typically GaCl) is reacted with a gas containing As (typically AsH3) at the surface of a GaAs substrate. When grown under the proper conditions, the epitaxial, vapor grown GaAs crystal has ultra-long free carrier lifetimes of at least one order of magnitude greater than that of the previous lifetime of 1 microsecond. This very long free carrier lifetime GaAs will be particularly useful as a semiconductor radiation detector material and is also expected to be useful for many other applications than include medical imaging, solar cells, diode lasers, and optical limiters and other applications.
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公开(公告)号:US09069229B2
公开(公告)日:2015-06-30
申请号:US13741456
申请日:2013-01-15
Inventor: Peter G. Schunemann , Kevin T. Zawilski
CPC classification number: G02F1/35 , A61B18/20 , G02F1/3551
Abstract: CdSiP2 crystals with sizes and optical quality suitable for use as nonlinear optical devices are disclosed, as well as NLO devices based thereupon. A method of growing the crystals by directional solidification from a stoichiometric melt is also disclosed. The disclosed NLO crystals have a higher nonlinear coefficient than prior art crystals that can be pumped by solid state lasers, and are particularly useful for frequency shifting 1.06 μm, 1.55 μm, and 2 μm lasers to wavelengths between 2 μm and 10 μm. Due to the high thermal conductivity and low losses of the claimed CdSiP2 crystals, average output power can exceed 10 W without severe thermal lensing. A 6.45 μm laser source for use as a medical laser scalpel is also disclosed, in which a CdSiP2 crystal is configured for non-critical phase matching, pumped by a 1064 nm Nd:YAG laser, and temperature-tuned to produce output at 6.45 μm.
Abstract translation: 公开了适合用作非线性光学器件的尺寸和光学质量的CdSiP 2晶体以及基于此的NLO器件。 还公开了通过来自化学计量熔体的定向凝固来生长晶体的方法。 所公开的NLO晶体具有比可由固体激光器泵浦的现有技术晶体更高的非线性系数,并且对于在2μm和10μm之间的波长的1.06μm,1.55μm和2μm激光器的频移特别有用。 由于所要求的CdSiP2晶体的高导热性和低损耗,平均输出功率可以超过10W而没有严重的热透镜。 还公开了用作医疗激光手术刀的6.45μm激光源,其中CdSiP2晶体被配置用于非临界相位匹配,由1064nm Nd:YAG激光器泵浦,并被温度调节以产生6.45μm的输出 。
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公开(公告)号:US12203192B2
公开(公告)日:2025-01-21
申请号:US18072931
申请日:2022-12-01
Inventor: Jeremy B. Reeves , Kevin T. Zawilski , Peter G. Schunemann
Abstract: A method of manufacturing a structurally competent, EMI-shielded IR window includes using a mathematical model that combines the Sotoodeh and Nag models to determine an optimal thickness and dopant concentration of a doped layer of GaAs or GaP. A slab of GaAs or GaP is prepared, and a doped layer of the same material having the optimal thickness and dopant concentration is applied thereto. In embodiments, the doped layer is applied by an HVPE method such as LP-HVPE, which can also provide enhanced GaAs transparency near 1 micron. The Drude model can be applied to assist in selecting an anti-reflective coating. If the model predicts that the requirements of an application cannot be met by a doped layer alone, a doped layer can be applied that exceeds the required IR transparency, and a metallic grid can be applied to improve the EMI shielding, thereby satisfying the requirements.
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公开(公告)号:US20240183066A1
公开(公告)日:2024-06-06
申请号:US18072931
申请日:2022-12-01
Inventor: Jeremy B. Reeves , Kevin T. Zawilski , Peter G. Schunemann
CPC classification number: C30B25/20 , C09D5/006 , C30B25/16 , C30B29/42 , H05K9/0005 , H05K9/0094
Abstract: A method of manufacturing a structurally competent, EMI-shielded IR window includes using a mathematical model that combines the Sotoodeh and Nag models to determine an optimal thickness and dopant concentration of a doped layer of GaAs or GaP. A slab of GaAs or GaP is prepared, and a doped layer of the same material having the optimal thickness and dopant concentration is applied thereto. In embodiments, the doped layer is applied by an HVPE method such as LP-HVPE, which can also provide enhanced GaAs transparency near 1 micron. The Drude model can be applied to assist in selecting an anti-reflective coating. If the model predicts that the requirements of an application cannot be met by a doped layer alone, a doped layer can be applied that exceeds the required IR transparency, and a metallic grid can be applied to improve the EMI shielding, thereby satisfying the requirements.
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公开(公告)号:US20130148189A1
公开(公告)日:2013-06-13
申请号:US13761203
申请日:2013-02-07
Inventor: Peter G. Schunemann , Kevin T. Zawilski
CPC classification number: C30B11/003 , C30B11/02 , C30B11/12 , C30B29/10 , G02F1/3551
Abstract: CdSiP2 crystals with sizes and optical quality suitable for use as nonlinear optical devices are disclosed, as well as NLO devices based thereupon. A method of growing the crystals by directional solidification from a stoichiometric melt is also disclosed. The disclosed NLO crystals have a higher nonlinear coefficient than prior art crystals that can be pumped by solid state lasers, and are particularly useful for frequency shifting 1.06 μm, 1.55 μm, and 2 μm lasers to wavelengths between 2 μm and 10 μm. Due to the high thermal conductivity and low losses of the claimed CdSiP2 crystals, average output power can exceed 10 W without severe thermal lensing. A 6.45 μm laser source for use as a medical laser scalpel is also disclosed, in which a CdSiP2 crystal is configured for non-critical phase matching, pumped by a 1064 nm Nd:YAG laser, and temperature-tuned to produce output at 6.45 μm.
Abstract translation: 公开了适合用作非线性光学器件的尺寸和光学质量的CdSiP 2晶体以及基于此的NLO器件。 还公开了通过来自化学计量熔体的定向凝固来生长晶体的方法。 所公开的NLO晶体具有比可由固态激光器泵浦的现有技术晶体更高的非线性系数,并且对于在2mum至10um之间的波长的1.06μm,1.55μm和2μm激光器的频移特别有用。 由于所要求的CdSiP2晶体的高导热性和低损耗,平均输出功率可以超过10W而没有严重的热透镜。 还公开了一种用作医疗激光手术刀的6.45毫米激光源,其中将CdSiP2晶体配置为非临界相位匹配,由1064nm Nd:YAG激光器泵浦,并进行温度调节以产生6.45mum的输出 。
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Patent Agency Ranking
公开(公告)号:US20240183075A1
公开(公告)日:2024-06-06
申请号:US18073183
申请日:2022-12-01
Inventor: Peter G. Schunemann , Kevin T. Zawilski
Abstract: A method of making GaP window slabs having largest dimensions of greater than 4 inches and GaAs IR window slabs having largest dimensions of greater than 8 inches, includes slicing and dicing at least one smaller GaAs or GaP single crystal boule, which can be a commercial boule, to form a plurality of rectangular slabs. The slabs are ground to have precisely perpendicular edges, which are polished to be ultra-flat and ultra-smooth, for example to a flatness of at least λ/10, and a roughness Ra of less than 10 nanometers. The slab edges are then aligned and fused via optical-contacting/bonding to create a large GaAs or GaP slab having negligible bond interface losses. A conductive, doped GaAs or GaP layer can be applied to the window for EMI shielding in a subsequent vacuum deposition step, followed by applying anti-reflection (AR) coatings to one or both of the slab faces.
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公开(公告)号:US20170204533A1
公开(公告)日:2017-07-20
申请号:US15474139
申请日:2017-03-30
Inventor: Peter G. Schunemann , Kevin T. Zawilski
IPC: C30B25/14 , C30B25/12 , C30B29/42 , H01L31/0304
CPC classification number: C30B25/14 , C30B25/12 , C30B29/42 , H01L31/0304
Abstract: A system and method for producing bulk GaAs with an increased carrier lifetime of at least 10 microseconds is provided. The system and method of producing the GaAs crystal involves using a technique called low pressure hydride vapor phase epitaxy (LP-HVPE). In this technique, a gas containing Ga (typically GaCl) is reacted with a gas containing As (typically AsH3) at the surface of a GaAs substrate. When grown under the proper conditions, the epitaxial, vapor grown GaAs crystal has ultra-long free carrier lifetimes of at least one order of magnitude greater than that of the previous lifetime of 1 microsecond. This very long free carrier lifetime GaAs will be particularly useful as a semiconductor radiation detector material and is also expected to be useful for many other applications than include medical imaging, solar cells, diode lasers, and optical limiters and other applications.
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公开(公告)号:US09704706B2
公开(公告)日:2017-07-11
申请号:US14422850
申请日:2014-06-11
Inventor: Peter G. Schunemann , Kevin T. Zawilski
CPC classification number: H01L21/02546 , C22C28/00 , C30B25/00 , C30B29/42 , H01L21/02395 , H01L21/0262
Abstract: A novel bulk GaAs with an increased carrier lifetime of at least 10 microseconds has been produced. This novel GaAs has many uses to improve optical and electrical devices. The method of producing the GaAs crystal involves using a technique called low pressure hydride vapor phase epitaxy (LP-HVPE). In this technique, a gas containing Ga (typically GaCl) is reacted with a gas containing As (typically AsH3) at the surface of a GaAs substrate. When grown under the proper conditions, the epitaxial, vapor grown GaAs crystal has ultra-long free carrier lifetimes of at least one order of magnitude greater than that of the previous art of 1 microsecond. This very long free carrier lifetime GaAs will be particularly useful as a semiconductor radiation detector material and is also expected to be useful for many other applications than include medical imaging, solar cells, diode lasers, and optical limiters and other applications.
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公开(公告)号:US08493649B2
公开(公告)日:2013-07-23
申请号:US13761203
申请日:2013-02-07
Inventor: Peter G. Schunemann , Kevin T. Zawilski
CPC classification number: C30B11/003 , C30B11/02 , C30B11/12 , C30B29/10 , G02F1/3551
Abstract: CdSiP2 crystals with sizes and optical quality suitable for use as nonlinear optical devices are disclosed, as well as NLO devices based thereupon. A method of growing the crystals by directional solidification from a stoichiometric melt is also disclosed. The disclosed NLO crystals have a higher nonlinear coefficient than prior art crystals that can be pumped by solid state lasers, and are particularly useful for frequency shifting 1.06 μm, 1.55 μm, and 2 μm lasers to wavelengths between 2 μm and 10 μm. Due to the high thermal conductivity and low losses of the claimed CdSiP2 crystals, average output power can exceed 10 W without severe thermal lensing. A 6.45 μm laser source for use as a medical laser scalpel is also disclosed, in which a CdSiP2 crystal is configured for non-critical phase matching, pumped by a 1064 nm Nd:YAG laser, and temperature-tuned to produce output at 6.45 μm.
Abstract translation: 公开了适合用作非线性光学器件的尺寸和光学质量的CdSiP 2晶体以及基于此的NLO器件。 还公开了通过来自化学计量熔体的定向凝固来生长晶体的方法。 所公开的NLO晶体具有比可由固态激光器泵浦的现有技术晶体更高的非线性系数,并且对于在2mum至10um之间的波长的1.06μm,1.55μm和2μm激光器的频移特别有用。 由于所要求的CdSiP2晶体的高导热性和低损耗,平均输出功率可以超过10W而没有严重的热透镜。 还公开了一种用作医疗激光手术刀的6.45毫米激光源,其中将CdSiP2晶体配置为非临界相位匹配,由1064nm Nd:YAG激光器泵浦,并进行温度调节以产生6.45mum的输出 。
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公开(公告)号:US20130158528A1
公开(公告)日:2013-06-20
申请号:US13741456
申请日:2013-01-15
Inventor: Peter G. Schunemann , Kevin T. Zawilski
CPC classification number: G02F1/35 , A61B18/20 , G02F1/3551
Abstract: CdSiP2 crystals with sizes and optical quality suitable for use as nonlinear optical devices are disclosed, as well as NLO devices based thereupon. A method of growing the crystals by directional solidification from a stoichiometric melt is also disclosed. The disclosed NLO crystals have a higher nonlinear coefficient than prior art crystals that can be pumped by solid state lasers, and are particularly useful for frequency shifting 1.06 μm, 1.55 μm, and 2 μm lasers to wavelengths between 2 μm and 10 μm. Due to the high thermal conductivity and low losses of the claimed CdSiP2 crystals, average output power can exceed 10 W without severe thermal lensing. A 6.45 μm laser source for use as a medical laser scalpel is also disclosed, in which a CdSiP2 crystal is configured for non-critical phase matching, pumped by a 1064 nm Nd:YAG laser, and temperature-tuned to produce output at 6.45 μm.
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