New advances in 2-μm high-power dual-frequency single-mode Q-switched Ho:YLF laser for dial and IPDA application

F. Gibert; D. Edouart; C. Cénac; F. Le Mounier; A. Dumas

doi:10.1117/12.2304177

New advances in 2-μm high-power dual-frequency single-mode Q-switched Ho:YLF laser for dial and IPDA application

F. Gibert
, D. Edouart
, C. Cénac
, F. Le Mounier
, A. Dumas

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In the absence of climate change policies, the fossil fuel emissions are projected to increase in the next decades. Depending on how the current carbon sinks change in the future, the atmospheric CO₂ concentration is predicted to be between 700-1000 ppmv by 2100, and global mean surface temperature between 1.1-6.4°C, with related changes in sea-level, extreme events and ecosystem drifts. Keeping the atmospheric CO₂ concentration at a level that prevents dangerous interference with the climate system poses an unprecedent but necessary challenge to humanity. Beyond this point, global climate change would be very difficult and costly to deal with. There are two main approaches that are currently analysed: (1) to reduce emissions; (2) to capture CO₂ and store it, i.e. sequestration. For these two ways, some monitoring at different scales ultimately from space would be needed. Lidar remote sensing is a powerful technique that enables measurements at various space and time resolution.

Original language	English
Title of host publication	International Conference on Space Optics, ICSO 2014
Editors	Zoran Sodnik, Bruno Cugny, Nikos Karafolas
Publisher	SPIE
ISBN (Electronic)	9781510616158
DOIs	https://doi.org/10.1117/12.2304177
Publication status	Published - 14 Nov 2017
Event	International Conference on Space Optics, ICSO 2014 - La Caleta, Tenerife, Canary Islands, Spain Duration: 7 Oct 2014 → 10 Oct 2014

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	10563
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	International Conference on Space Optics, ICSO 2014
Country/Territory	Spain
City	La Caleta, Tenerife, Canary Islands
Period	7/10/14 → 10/10/14

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

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10.1117/12.2304177

Cite this

Gibert, F., Edouart, D., Cénac, C., Le Mounier, F., & Dumas, A. (2017). New advances in 2-μm high-power dual-frequency single-mode Q-switched Ho:YLF laser for dial and IPDA application. In Z. Sodnik, B. Cugny, & N. Karafolas (Eds.), International Conference on Space Optics, ICSO 2014 Article 105630S (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10563). SPIE. https://doi.org/10.1117/12.2304177

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title = "New advances in 2-μm high-power dual-frequency single-mode Q-switched Ho:YLF laser for dial and IPDA application",

abstract = "In the absence of climate change policies, the fossil fuel emissions are projected to increase in the next decades. Depending on how the current carbon sinks change in the future, the atmospheric CO2 concentration is predicted to be between 700-1000 ppmv by 2100, and global mean surface temperature between 1.1-6.4°C, with related changes in sea-level, extreme events and ecosystem drifts. Keeping the atmospheric CO2 concentration at a level that prevents dangerous interference with the climate system poses an unprecedent but necessary challenge to humanity. Beyond this point, global climate change would be very difficult and costly to deal with. There are two main approaches that are currently analysed: (1) to reduce emissions; (2) to capture CO2 and store it, i.e. sequestration. For these two ways, some monitoring at different scales ultimately from space would be needed. Lidar remote sensing is a powerful technique that enables measurements at various space and time resolution.",

author = "F. Gibert and D. Edouart and C. C{\'e}nac and \{Le Mounier\}, F. and A. Dumas",

note = "Publisher Copyright: {\textcopyright} 2018 SPIE.; International Conference on Space Optics, ICSO 2014 ; Conference date: 07-10-2014 Through 10-10-2014",

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doi = "10.1117/12.2304177",

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series = "Proceedings of SPIE - The International Society for Optical Engineering",

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}

Gibert, F, Edouart, D, Cénac, C, Le Mounier, F & Dumas, A 2017, New advances in 2-μm high-power dual-frequency single-mode Q-switched Ho:YLF laser for dial and IPDA application. in Z Sodnik, B Cugny & N Karafolas (eds), International Conference on Space Optics, ICSO 2014., 105630S, Proceedings of SPIE - The International Society for Optical Engineering, vol. 10563, SPIE, International Conference on Space Optics, ICSO 2014, La Caleta, Tenerife, Canary Islands, Spain, 7/10/14. https://doi.org/10.1117/12.2304177

New advances in 2-μm high-power dual-frequency single-mode Q-switched Ho:YLF laser for dial and IPDA application. / Gibert, F.; Edouart, D.; Cénac, C. et al.
International Conference on Space Optics, ICSO 2014. ed. / Zoran Sodnik; Bruno Cugny; Nikos Karafolas. SPIE, 2017. 105630S (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10563).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - New advances in 2-μm high-power dual-frequency single-mode Q-switched Ho:YLF laser for dial and IPDA application

AU - Gibert, F.

AU - Edouart, D.

AU - Cénac, C.

AU - Le Mounier, F.

AU - Dumas, A.

PY - 2017/11/14

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N2 - In the absence of climate change policies, the fossil fuel emissions are projected to increase in the next decades. Depending on how the current carbon sinks change in the future, the atmospheric CO2 concentration is predicted to be between 700-1000 ppmv by 2100, and global mean surface temperature between 1.1-6.4°C, with related changes in sea-level, extreme events and ecosystem drifts. Keeping the atmospheric CO2 concentration at a level that prevents dangerous interference with the climate system poses an unprecedent but necessary challenge to humanity. Beyond this point, global climate change would be very difficult and costly to deal with. There are two main approaches that are currently analysed: (1) to reduce emissions; (2) to capture CO2 and store it, i.e. sequestration. For these two ways, some monitoring at different scales ultimately from space would be needed. Lidar remote sensing is a powerful technique that enables measurements at various space and time resolution.

AB - In the absence of climate change policies, the fossil fuel emissions are projected to increase in the next decades. Depending on how the current carbon sinks change in the future, the atmospheric CO2 concentration is predicted to be between 700-1000 ppmv by 2100, and global mean surface temperature between 1.1-6.4°C, with related changes in sea-level, extreme events and ecosystem drifts. Keeping the atmospheric CO2 concentration at a level that prevents dangerous interference with the climate system poses an unprecedent but necessary challenge to humanity. Beyond this point, global climate change would be very difficult and costly to deal with. There are two main approaches that are currently analysed: (1) to reduce emissions; (2) to capture CO2 and store it, i.e. sequestration. For these two ways, some monitoring at different scales ultimately from space would be needed. Lidar remote sensing is a powerful technique that enables measurements at various space and time resolution.

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ER -

Gibert F, Edouart D, Cénac C, Le Mounier F, Dumas A. New advances in 2-μm high-power dual-frequency single-mode Q-switched Ho:YLF laser for dial and IPDA application. In Sodnik Z, Cugny B, Karafolas N, editors, International Conference on Space Optics, ICSO 2014. SPIE. 2017. 105630S. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.2304177

New advances in 2-μm high-power dual-frequency single-mode Q-switched Ho:YLF laser for dial and IPDA application

Abstract

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UN SDGs

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