-
1.发明申请High-Power, High-Throughput Microwave Discharge Singlet Oxygen Generator for Advanced Electrical Oxygen-Iodine Lasers 有权用于先进电氧碘激光器的大功率,高通量微波放电单相氧发生器公开(公告)号:US20110170571A1
公开(公告)日:2011-07-14
申请号:US12881987
申请日:2010-09-14
IPC分类号: H01S3/22
CPC分类号: H01S3/2215 , H01S3/041 , H01S3/0953 , H01S3/104
摘要: A laser device includes an optical resonator, a microwave driven discharge device, and a source for a second gas. The microwave driven discharge device is disposed relative to the optical resonator. The microwave driven discharge device operates at a discharge power and gas flow rate to produce a selected amount of energetic singlet oxygen metastables flowing in the direction of the optical resonator. The second source for the second gas is disposed between the optical resonator and the microwave driven discharge device. The second gas reacts with the selected amount of energetic singlet oxygen metastables to form an excited species in an amount sufficient to support lasing of the excited species in the optical resonator.
摘要翻译: 激光装置包括光学谐振器,微波驱动放电装置和用于第二气体的源。 微波驱动放电装置相对于光谐振器设置。 微波驱动放电装置以放电功率和气体流速工作,以产生在光谐振器的方向上流动的选定量的能量单态氧亚稳态。 第二气体的第二源设置在光谐振器和微波驱动放电装置之间。 第二气体与选定量的能量单态氧亚稳态反应以形成足以支持激发物质在光学谐振器中的激发的量的激发物质。
-
公开(公告)号:US20130259769A1
公开(公告)日:2013-10-03
申请号:US12492912
申请日:2009-06-26
申请人: W. Terry Rawlins , Seonkyung Lee , Steven J. Davis
发明人: W. Terry Rawlins , Seonkyung Lee , Steven J. Davis
CPC分类号: H01S3/0305 , C01B13/02 , H01S3/036 , H01S3/0953 , H01S3/2215
摘要: Singlet oxygen metastables can be formed. A catalytic coating is formed on an interior surface of a flow reactor, and an oxygen containing species is flowed into the flow reactor to produce singlet oxygen metastables by a chemical reaction in the presence of the catalytic coating.
摘要翻译: 可以形成单线态氧亚稳态。 在流动反应器的内表面上形成催化涂层,并且在催化涂层存在下,通过化学反应将含氧物质流入流动反应器以产生单线态亚稳态。
-
3.发明授权High-power, high-throughput microwave discharge singlet oxygen generator for advanced electrical oxygen-iodine lasers 有权高功率,高产量的微波放电单线态氧气发生器,用于先进的电氧碘激光器公开(公告)号:US07817699B2
公开(公告)日:2010-10-19
申请号:US12018162
申请日:2008-01-22
IPC分类号: H01S3/22
CPC分类号: H01S3/2215 , H01S3/041 , H01S3/0953 , H01S3/104
摘要: A laser device includes an optical resonator, a microwave driven discharge device, and a source for a second gas. The microwave driven discharge device is disposed relative to the optical resonator. The microwave driven discharge device operates at a discharge power and gas flow rate to produce a selected amount of energetic singlet oxygen metastables flowing in the direction of the optical resonator. The second source for the second gas is disposed between the optical resonator and the microwave driven discharge device. The second gas reacts with the selected amount of energetic singlet oxygen metastables to form an excited species in an amount sufficient to support lasing of the excited species in the optical resonator.
摘要翻译: 激光装置包括光学谐振器,微波驱动放电装置和用于第二气体的源。 微波驱动放电装置相对于光谐振器设置。 微波驱动放电装置以放电功率和气体流速工作,以产生在光谐振器的方向上流动的选定量的能量单态氧亚稳态。 第二气体的第二源设置在光谐振器和微波驱动放电装置之间。 第二气体与选定量的能量单态氧亚稳态反应以形成足以支持激发物质在光学谐振器中的激发的量的激发物质。
-
4.发明授权High-power, high-throughput microwave discharge singlet oxygen generator for advanced electrical oxygen-iodine lasers 有权高功率,高产量的微波放电单线态氧气发生器,用于先进的电氧碘激光器公开(公告)号:US08432949B2
公开(公告)日:2013-04-30
申请号:US12881987
申请日:2010-09-14
IPC分类号: H01S3/22
CPC分类号: H01S3/2215 , H01S3/041 , H01S3/0953 , H01S3/104
摘要: A laser device includes an optical resonator, a microwave driven discharge device, and a source for a second gas. The microwave driven discharge device is disposed relative to the optical resonator. The microwave driven discharge device operates at a discharge power and gas flow rate to produce a selected amount of energetic singlet oxygen metastables flowing in the direction of the optical resonator. The second source for the second gas is disposed between the optical resonator and the microwave driven discharge device. The second gas reacts with the selected amount of energetic singlet oxygen metastables to form an excited species in an amount sufficient to support lasing of the excited species in the optical resonator.
摘要翻译: 激光装置包括光学谐振器,微波驱动放电装置和用于第二气体的源。 微波驱动放电装置相对于光谐振器设置。 微波驱动放电装置以放电功率和气体流速工作,以产生在光谐振器的方向上流动的选定量的能量单态氧亚稳态。 第二气体的第二源设置在光谐振器和微波驱动放电装置之间。 第二气体与选定量的能量单态氧亚稳态反应以形成足以支持激发物质在光学谐振器中的激发的量的激发物质。
-
公开(公告)号:US08670475B2
公开(公告)日:2014-03-11
申请号:US12492912
申请日:2009-06-26
申请人: W. Terry Rawlins , Seonkyung Lee , Steven J. Davis
发明人: W. Terry Rawlins , Seonkyung Lee , Steven J. Davis
IPC分类号: H01S3/223
CPC分类号: H01S3/0305 , C01B13/02 , H01S3/036 , H01S3/0953 , H01S3/2215
摘要: Singlet oxygen metastables can be formed. A catalytic coating is formed on an interior surface of a flow reactor, and an oxygen containing species is flowed into the flow reactor to produce singlet oxygen metastables by a chemical reaction in the presence of the catalytic coating.
摘要翻译: 可以形成单线态氧亚稳态。 在流动反应器的内表面上形成催化涂层,并且在催化涂层存在下,通过化学反应将含氧物质流入流动反应器以产生单线态亚稳态。
-
6.发明申请High-Power, High-Throughput Microwave Discharge Singlet Oxygen Generator for Advanced Electrical Oxygen-Iodine Lasers 有权用于先进电氧碘激光器的大功率,高通量微波放电单相氧发生器公开(公告)号:US20090323743A1
公开(公告)日:2009-12-31
申请号:US12018162
申请日:2008-01-22
CPC分类号: H01S3/2215 , H01S3/041 , H01S3/0953 , H01S3/104
摘要: A laser device includes an optical resonator, a microwave driven discharge device, and a source for a second gas. The microwave driven discharge device is disposed relative to the optical resonator. The microwave driven discharge device operates at a discharge power and gas flow rate to produce a selected amount of energetic singlet oxygen metastables flowing in the direction of the optical resonator. The second source for the second gas is disposed between the optical resonator and the microwave driven discharge device. The second gas reacts with the selected amount of energetic singlet oxygen metastables to form an excited species in an amount sufficient to support lasing of the excited species in the optical resonator.
摘要翻译: 激光装置包括光学谐振器,微波驱动放电装置和用于第二气体的源。 微波驱动放电装置相对于光谐振器设置。 微波驱动放电装置以放电功率和气体流速工作,以产生在光谐振器的方向上流动的选定量的能量单态氧亚稳态。 第二气体的第二源设置在光谐振器和微波驱动放电装置之间。 第二气体与选定量的能量单态氧亚稳态反应以形成足以支持激发物质在光学谐振器中的激发的量的激发物质。
-
-
-
-
-
搜索结果
6 条记录 (耗时 0.013 秒)
