Con esta herramienta te facilitamos un acceso a todas las ofertas y demandas de tecnología europeas y a búsquedas de socios para participar en propuestas europeas de I+D publicadas en la red Enterprise Europe Network, pudiendo filtrar los resultados para facilitar las búsquedas más acordes con tus necesidades.

¿Quieres recibir estos listados de oportunidades de colaboración en tu correo de forma periódica y personalizada? Date de alta en nuestro Boletín

Para optimizar los resultados de la búsqueda, se recomienda utilizar términos en inglés.

Componentes de inmersión para aumentar la eficiencia de láseres de bombeo sólidos

Resumen

Tipo:
Oferta Tecnológica
Referencia:
09 RU 86FG 3FHF
Publicado:
24/06/2015
Caducidad:
04/01/2016
Resumen:
Un centro ruso de transferencia de tecnología especializado en materiales ópticos ha desarrollado un método para optimizar procesos térmicos en láseres sólidos mediante la utilización de componentes de inmersión. Estos componentes aumentan la eficiencia de la radiación láser. Entre las principales ventajas de la tecnología cabe destacar el bajo consumo de energía para obtener los componentes, seguridad ecológica, simplicidad del proceso tecnológico, disponibilidad de materias primas y bajo coste del equipo de síntesis de los componentes. El centro busca socios industriales e investigadores para establecer acuerdos de cooperación técnica.

Details

Tittle:
Immersion compounds to increase the efficiency of solid compact laser pumping
Summary:
A Technology Transfer Centre from Saint Petersburg specialized in optical materials developed an original method for optimizing thermal processes in solid lasers using immersion compounds that increase the efficiency of laser radiation. The Centre seeks R&D and industrial partners for technical cooperation.
Description:
Considerable heat generation and the great effect of thermal processes in solid lasers over the light generation are the main factors limiting the pulse frequency and the average radiation power. In compact lasers, where the small size exclude the possibility of thermal stabilization, the thermal regulation is provided by the design of the radiating element. This design shall ideally satisfy the requirements, usually contradictory, of the high optical efficiency and thermal characteristics. One of the methods to increase the efficiency of laser emission is application of immersion compounds.
The developed technology enables to increase the solid laser pumping efficiency by 25%. It also increases the solid laser low frequency action period and ensures a short-term action in a high frequency range. Immersion compounds are intended to be used in solid lasers active elements to increase the pumping efficiency without forced cooling.

Current and Potential Domain of Application: Immersion compounds can be used in ranging equipment, medicine, space technology.
Current and Potential Domain of Application
Immersion compounds can be used in ranging equipment, medicine, space technology.
Advantages and Innovations:
The main advantages are: low power consumption to obtain the compounds, their ecological safety, simplicity of the technological process, availability of the raw materials and low cost of compound synthesis equipment.
This technology has a considerable market potential. The described innovative characteristics of the product, its low price and lack of close analogs ensure its competitive advantages.
Stage of Development:
Under development/lab tested
IPs:
Secret know-how

Partner sought

Type and Role of Partner Sought:
- Type of partner sought: R&D, industry
- Specific area of activity of the partner: laser-bansed equipment, space instrumentation and technology, medicine
- Task to be performed by the partner sought: Testing of new applications, joint adaptation to specific needs
Type of Partnership Considered:
Adaptation to specific needs
Testing of new applications

Client

Type and Size of Client:
R&D Institution
Already Engaged in Trans-National Cooperation:
No

Dissemination

Restrict dissemination to specific countries:
Germany, United States

Keywords

Technology Keywords:
02007012 Materiales ópticos
02007 Tecnología de materiales