Out-of-band laser damage to an anti-reflection coated Germanium window

G. D. Lewis; Martin Lagrange Derache; C. J. Strubbe; M. Vandewal

doi:10.1117/12.2572999

Out-of-band laser damage to an anti-reflection coated Germanium window

G. D. Lewis, Martin Lagrange Derache, C. J. Strubbe, M. Vandewal

Royal Netherlands Aerospace Centre

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

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Abstract

Thermal infrared imaging systems are increasingly vulnerable to the threat of disruption or damage from laser weapons. For laser weapons operating within the waveband of the imager, in-band, the effect is primarily dazzling of the focal plane array. In contrast, for those not in the same waveband, out-of-band, the critical interaction is thermal heating of the outer optical components leading to probable substrate damage. In this article, we analyze the impact of out-of-band high power laser radiation on an infrared telescope operating in the longwave waveband region (LWIR). In particular, we illustrate the stages from coating ablation to subsequent substrate damage. A 1.07 micron continuous-wave fiber laser illuminated the telescope for durations up to a few seconds at a maximum power of approximately one kilowatt. Both visible and LWIR imagers recorded the impact on the outer lens. Our results indicate a predictable chronological sequence of events leading to material damage and heat transfer effects across the substrate as we increased the laser power and duration time.

Original language	English
Title of host publication	Technologies for Optical Countermeasures XVII; and High-Power Lasers
Subtitle of host publication	Technology and Systems, Platforms, Effects IV
Editors	David H. Titterton, Robert J. Grasso, Mark A. Richardson, Willy L. Bohn, Harro Ackermann
Publisher	Society of Photo-Optical Instrumentation Engineers
ISBN (Electronic)	9781510638914
DOIs	https://doi.org/10.1117/12.2572999
Publication status	Published - 2020
Event	Technologies for Optical Countermeasures XVII; and High-Power Lasers: Technology and Systems, Platforms, Effects IV 2020 - Virtual, Online, United Kingdom Duration: 21 Sept 2020 → 25 Sept 2020

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	11539
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	Technologies for Optical Countermeasures XVII; and High-Power Lasers: Technology and Systems, Platforms, Effects IV 2020
Country/Territory	United Kingdom
City	Virtual, Online
Period	21/09/20 → 25/09/20

Keywords

Fiber laser
HEL
Infrared
Laser damage
Out-of-band

Access to Document

10.1117/12.2572999

Out-band-damage-GeFinal published version, 1.07 MBLicence: Other

Cite this

Lewis, G. D., Lagrange Derache, M., Strubbe, C. J., & Vandewal, M. (2020). Out-of-band laser damage to an anti-reflection coated Germanium window. In D. H. Titterton, R. J. Grasso, M. A. Richardson, W. L. Bohn, & H. Ackermann (Eds.), Technologies for Optical Countermeasures XVII; and High-Power Lasers: Technology and Systems, Platforms, Effects IV Article 1153907 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 11539). Society of Photo-Optical Instrumentation Engineers. https://doi.org/10.1117/12.2572999

Lewis, G. D. ; Lagrange Derache, Martin ; Strubbe, C. J. et al. / Out-of-band laser damage to an anti-reflection coated Germanium window. Technologies for Optical Countermeasures XVII; and High-Power Lasers: Technology and Systems, Platforms, Effects IV. editor / David H. Titterton ; Robert J. Grasso ; Mark A. Richardson ; Willy L. Bohn ; Harro Ackermann. Society of Photo-Optical Instrumentation Engineers, 2020. (Proceedings of SPIE - The International Society for Optical Engineering).

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title = "Out-of-band laser damage to an anti-reflection coated Germanium window",

abstract = "Thermal infrared imaging systems are increasingly vulnerable to the threat of disruption or damage from laser weapons. For laser weapons operating within the waveband of the imager, in-band, the effect is primarily dazzling of the focal plane array. In contrast, for those not in the same waveband, out-of-band, the critical interaction is thermal heating of the outer optical components leading to probable substrate damage. In this article, we analyze the impact of out-of-band high power laser radiation on an infrared telescope operating in the longwave waveband region (LWIR). In particular, we illustrate the stages from coating ablation to subsequent substrate damage. A 1.07 micron continuous-wave fiber laser illuminated the telescope for durations up to a few seconds at a maximum power of approximately one kilowatt. Both visible and LWIR imagers recorded the impact on the outer lens. Our results indicate a predictable chronological sequence of events leading to material damage and heat transfer effects across the substrate as we increased the laser power and duration time.",

keywords = "Fiber laser, HEL, Infrared, Laser damage, Out-of-band",

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Lewis, GD, Lagrange Derache, M, Strubbe, CJ & Vandewal, M 2020, Out-of-band laser damage to an anti-reflection coated Germanium window. in DH Titterton, RJ Grasso, MA Richardson, WL Bohn & H Ackermann (eds), Technologies for Optical Countermeasures XVII; and High-Power Lasers: Technology and Systems, Platforms, Effects IV., 1153907, Proceedings of SPIE - The International Society for Optical Engineering, vol. 11539, Society of Photo-Optical Instrumentation Engineers, Technologies for Optical Countermeasures XVII; and High-Power Lasers: Technology and Systems, Platforms, Effects IV 2020, Virtual, Online, United Kingdom, 21/09/20. https://doi.org/10.1117/12.2572999

Out-of-band laser damage to an anti-reflection coated Germanium window. / Lewis, G. D.; Lagrange Derache, Martin; Strubbe, C. J. et al.
Technologies for Optical Countermeasures XVII; and High-Power Lasers: Technology and Systems, Platforms, Effects IV. ed. / David H. Titterton; Robert J. Grasso; Mark A. Richardson; Willy L. Bohn; Harro Ackermann. Society of Photo-Optical Instrumentation Engineers, 2020. 1153907 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 11539).

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

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T1 - Out-of-band laser damage to an anti-reflection coated Germanium window

AU - Lewis, G. D.

AU - Lagrange Derache, Martin

AU - Strubbe, C. J.

AU - Vandewal, M.

PY - 2020

Y1 - 2020

N2 - Thermal infrared imaging systems are increasingly vulnerable to the threat of disruption or damage from laser weapons. For laser weapons operating within the waveband of the imager, in-band, the effect is primarily dazzling of the focal plane array. In contrast, for those not in the same waveband, out-of-band, the critical interaction is thermal heating of the outer optical components leading to probable substrate damage. In this article, we analyze the impact of out-of-band high power laser radiation on an infrared telescope operating in the longwave waveband region (LWIR). In particular, we illustrate the stages from coating ablation to subsequent substrate damage. A 1.07 micron continuous-wave fiber laser illuminated the telescope for durations up to a few seconds at a maximum power of approximately one kilowatt. Both visible and LWIR imagers recorded the impact on the outer lens. Our results indicate a predictable chronological sequence of events leading to material damage and heat transfer effects across the substrate as we increased the laser power and duration time.

AB - Thermal infrared imaging systems are increasingly vulnerable to the threat of disruption or damage from laser weapons. For laser weapons operating within the waveband of the imager, in-band, the effect is primarily dazzling of the focal plane array. In contrast, for those not in the same waveband, out-of-band, the critical interaction is thermal heating of the outer optical components leading to probable substrate damage. In this article, we analyze the impact of out-of-band high power laser radiation on an infrared telescope operating in the longwave waveband region (LWIR). In particular, we illustrate the stages from coating ablation to subsequent substrate damage. A 1.07 micron continuous-wave fiber laser illuminated the telescope for durations up to a few seconds at a maximum power of approximately one kilowatt. Both visible and LWIR imagers recorded the impact on the outer lens. Our results indicate a predictable chronological sequence of events leading to material damage and heat transfer effects across the substrate as we increased the laser power and duration time.

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T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Technologies for Optical Countermeasures XVII; and High-Power Lasers

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Lewis GD, Lagrange Derache M, Strubbe CJ, Vandewal M. Out-of-band laser damage to an anti-reflection coated Germanium window. In Titterton DH, Grasso RJ, Richardson MA, Bohn WL, Ackermann H, editors, Technologies for Optical Countermeasures XVII; and High-Power Lasers: Technology and Systems, Platforms, Effects IV. Society of Photo-Optical Instrumentation Engineers. 2020. 1153907. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.2572999

Out-of-band laser damage to an anti-reflection coated Germanium window

Abstract

Publication series

Conference

Keywords

Access to Document

Other files and links

Fingerprint

DAP/18-02: Vulnerability of mid-wave infrared thermal imaging systems to current and future laser weapon threats

Airborne Laser-Based Systems against an Imaging Mid-Wave Infrared Seeker Missile Threat

Optronics Laboratory

Cite this

Out-of-band laser damage to an anti-reflection coated Germanium window

Abstract

Publication series

Conference

Keywords

Access to Document

Other files and links

Fingerprint

Projects

DAP/18-02: Vulnerability of mid-wave infrared thermal imaging systems to current and future laser weapon threats

Activities

Airborne Laser-Based Systems against an Imaging Mid-Wave Infrared Seeker Missile Threat

Equipment

Optronics Laboratory

Cite this