公开(公告)号：WO2017200620A3

公开(公告)日：2018-01-18

申请号：PCT/US2017019907

申请日：2017-02-28

Applicant: STC UNM

Inventor： OSINSKI MAREK ,  SMOLYAKOV GENNADY A

IPC: H01S5/10

CPC classification number: H01S5/4006 ,  H01S5/021 ,  H01S5/026 ,  H01S5/1032 ,  H01S5/1071 ,  H01S5/141 ,  H01S5/142

Abstract: The present invention provides one or more injection-lockable whistle-geometry semiconductor ring lasers, which may be cascaded, that are integrated on a common silicon-on-insulator (SOI) substrate with a single-frequency semiconductor master laser, wherein the light output from the semiconductor master laser is used to injection-lock the first of the semiconductor ring lasers. The ring lasers can be operated in strongly injection-locked mode, while at least one of them is subjected to direct injection current modulation.

Abstract translation: 本发明提供了一种或多种可级联连接的可注入锁定的口哨几何结构半导体环形激光器，其通过单频半导体主激光器集成在公共绝缘体上硅（SOI）衬底上，其中光输出 从半导体主激光器被用于注入锁定第一半导体环形激光器。 环形激光器可以在强烈的注入锁定模式下工作，而其中至少有一个受到直接注入电流调制。

公开(公告)号：WO2011011064A3

公开(公告)日：2011-05-05

申请号：PCT/US2010002049

申请日：2010-07-21

Applicant: STC UNM ,  SMOLYAKOV GENNADY A ,  OSINSKI MAREK A

Inventor： SMOLYAKOV GENNADY A ,  OSINSKI MAREK A

IPC: C01B3/04 ,  B01J21/06 ,  B01J23/38 ,  B01J23/89 ,  B82B3/00

CPC classification number: C01B3/042 ,  B01J21/063 ,  B01J23/60 ,  B01J23/6484 ,  B01J23/80 ,  B01J23/8474 ,  B01J35/0013 ,  B01J35/004 ,  B01J35/008 ,  B01J35/0086 ,  B01J37/035 ,  Y02E60/364 ,  Y02P20/134

Abstract: Photocatalytic water splitting is employed as a method to directly obtain clean hydrogen from solar radiation by using hybrid nanoparticles with metallic cores and semiconductor photocatalytic shells. Efficient unassisted overall photocatalytic splitting of water is based on resonant absorption from surface plasmon in metal core/semiconductor shell hybrid nanoparticles, which can extend the absorption spectra further towards the visible-near infrared range, thus dramatically increasing the solar energy conversion efficiency. When used in combination with scintillator nanoparticles, the hybrid photocatalytic nanoparticles can be used for conversion of nuclear energy into hydrogen.

Abstract translation: 采用光催化水分解法，通过使用金属核和半导体光催化壳的混合纳米粒子直接从太阳辐射获得清洁氢。 水的有效无辅助整体光催化分解是基于金属核/半导体壳混合纳米粒子中表面等离子体激元的共振吸收，这可以将吸收光谱进一步扩展到可见光近红外范围，从而大大提高太阳能转换效率。 当与闪烁体纳米颗粒组合使用时，杂化光催化纳米颗粒可用于将核能转化为氢。