Pulsed DC sputter deposited hydrogenated carbon - an alternative durable infrared optical thin film material

S. Ahmadzadeh; L. Fleming; D. Gibson

doi:10.1117/12.3023594

Pulsed DC sputter deposited hydrogenated carbon - an alternative durable infrared optical thin film material

S. Ahmadzadeh, L. Fleming, D. Gibson

School of Computing, Engineering and Physical Sciences

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

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Abstract

This study investigates the feasibility of using hydrogenated carbon thin films deposited by pulsed DC sputtering as an alternative durable optical thin film material for infrared applications. The study focuses on how the mechanical and optical characteristics of the deposited carbon thin films vary with hydrogen content. To precisely control the hydrogen incorporation in the carbon layers, pulsed DC deposition was used in conjunction with a controlled hydrogen generator. This allowed for a methodical investigation of the link between hydrogen content, stresses, transmittance, reflectance, and absorptance. Results of increasing hydrogen content within the carbon films demonstrate a reduction in stress, absorptance and hardness. The hydrogen acts to alleviate the compressive stress levels and mitigate the mechanical durability challenges within the film. Such films have applications in systems that require mechanically robust optical coatings such as antireflection infrared coatings for common infrared substrate materials.

Original language	English
Title of host publication	PROCEEDINGS VOLUME 13020 SPIE OPTICAL SYSTEMS DESIGN \| 7-12 APRIL 2024
Subtitle of host publication	Advances in Optical Thin Films VIII
Editors	Michelle Lequime, Detlev Ristau
Publisher	Society of Photo-Optical Instrumentation Engineers
Volume	13020
DOIs	https://doi.org/10.1117/12.3023594
Publication status	Published - 24 Jun 2024
Event	SPIE Phototonics Europe 2024 - Strasbourg, France Duration: 7 Apr 2024 → 12 Apr 2024 https://www.spiedigitallibrary.org/conference-proceedings-of-SPIE/12999.toc#_=_

Publication series

Name	SPIE Proceedings
Publisher	SPIE
Volume	13020

Conference

Conference	SPIE Phototonics Europe 2024
Country/Territory	France
City	Strasbourg
Period	7/04/24 → 12/04/24
Internet address	https://www.spiedigitallibrary.org/conference-proceedings-of-SPIE/12999.toc#_=_

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10.1117/12.3023594

2024 03 21 Ahmadzadeh et al Sputter accepted - for PureAccepted author manuscript, 296 KB

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Ahmadzadeh, S., Fleming, L., & Gibson, D. (2024). Pulsed DC sputter deposited hydrogenated carbon - an alternative durable infrared optical thin film material. In M. Lequime, & D. Ristau (Eds.), PROCEEDINGS VOLUME 13020 SPIE OPTICAL SYSTEMS DESIGN | 7-12 APRIL 2024: Advances in Optical Thin Films VIII (Vol. 13020). Article 3023594 (SPIE Proceedings; Vol. 13020). Society of Photo-Optical Instrumentation Engineers. https://doi.org/10.1117/12.3023594

Ahmadzadeh, S. ; Fleming, L. ; Gibson, D. / Pulsed DC sputter deposited hydrogenated carbon - an alternative durable infrared optical thin film material. PROCEEDINGS VOLUME 13020 SPIE OPTICAL SYSTEMS DESIGN | 7-12 APRIL 2024: Advances in Optical Thin Films VIII. editor / Michelle Lequime ; Detlev Ristau. Vol. 13020 Society of Photo-Optical Instrumentation Engineers, 2024. (SPIE Proceedings).

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abstract = "This study investigates the feasibility of using hydrogenated carbon thin films deposited by pulsed DC sputtering as an alternative durable optical thin film material for infrared applications. The study focuses on how the mechanical and optical characteristics of the deposited carbon thin films vary with hydrogen content. To precisely control the hydrogen incorporation in the carbon layers, pulsed DC deposition was used in conjunction with a controlled hydrogen generator. This allowed for a methodical investigation of the link between hydrogen content, stresses, transmittance, reflectance, and absorptance. Results of increasing hydrogen content within the carbon films demonstrate a reduction in stress, absorptance and hardness. The hydrogen acts to alleviate the compressive stress levels and mitigate the mechanical durability challenges within the film. Such films have applications in systems that require mechanically robust optical coatings such as antireflection infrared coatings for common infrared substrate materials.",

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Ahmadzadeh, S, Fleming, L & Gibson, D 2024, Pulsed DC sputter deposited hydrogenated carbon - an alternative durable infrared optical thin film material. in M Lequime & D Ristau (eds), PROCEEDINGS VOLUME 13020 SPIE OPTICAL SYSTEMS DESIGN | 7-12 APRIL 2024: Advances in Optical Thin Films VIII. vol. 13020, 3023594, SPIE Proceedings, vol. 13020, Society of Photo-Optical Instrumentation Engineers, SPIE Phototonics Europe 2024, Strasbourg, France, 7/04/24. https://doi.org/10.1117/12.3023594

Pulsed DC sputter deposited hydrogenated carbon - an alternative durable infrared optical thin film material. / Ahmadzadeh, S.; Fleming, L.; Gibson, D.
PROCEEDINGS VOLUME 13020 SPIE OPTICAL SYSTEMS DESIGN | 7-12 APRIL 2024: Advances in Optical Thin Films VIII. ed. / Michelle Lequime; Detlev Ristau. Vol. 13020 Society of Photo-Optical Instrumentation Engineers, 2024. 3023594 (SPIE Proceedings; Vol. 13020).

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

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T1 - Pulsed DC sputter deposited hydrogenated carbon - an alternative durable infrared optical thin film material

AU - Ahmadzadeh, S.

AU - Fleming, L.

AU - Gibson, D.

PY - 2024/6/24

Y1 - 2024/6/24

N2 - This study investigates the feasibility of using hydrogenated carbon thin films deposited by pulsed DC sputtering as an alternative durable optical thin film material for infrared applications. The study focuses on how the mechanical and optical characteristics of the deposited carbon thin films vary with hydrogen content. To precisely control the hydrogen incorporation in the carbon layers, pulsed DC deposition was used in conjunction with a controlled hydrogen generator. This allowed for a methodical investigation of the link between hydrogen content, stresses, transmittance, reflectance, and absorptance. Results of increasing hydrogen content within the carbon films demonstrate a reduction in stress, absorptance and hardness. The hydrogen acts to alleviate the compressive stress levels and mitigate the mechanical durability challenges within the film. Such films have applications in systems that require mechanically robust optical coatings such as antireflection infrared coatings for common infrared substrate materials.

AB - This study investigates the feasibility of using hydrogenated carbon thin films deposited by pulsed DC sputtering as an alternative durable optical thin film material for infrared applications. The study focuses on how the mechanical and optical characteristics of the deposited carbon thin films vary with hydrogen content. To precisely control the hydrogen incorporation in the carbon layers, pulsed DC deposition was used in conjunction with a controlled hydrogen generator. This allowed for a methodical investigation of the link between hydrogen content, stresses, transmittance, reflectance, and absorptance. Results of increasing hydrogen content within the carbon films demonstrate a reduction in stress, absorptance and hardness. The hydrogen acts to alleviate the compressive stress levels and mitigate the mechanical durability challenges within the film. Such films have applications in systems that require mechanically robust optical coatings such as antireflection infrared coatings for common infrared substrate materials.

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DO - 10.1117/12.3023594

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BT - PROCEEDINGS VOLUME 13020 SPIE OPTICAL SYSTEMS DESIGN | 7-12 APRIL 2024

A2 - Lequime, Michelle

A2 - Ristau, Detlev

PB - Society of Photo-Optical Instrumentation Engineers

T2 - SPIE Phototonics Europe 2024

Y2 - 7 April 2024 through 12 April 2024

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Ahmadzadeh S, Fleming L , Gibson D. Pulsed DC sputter deposited hydrogenated carbon - an alternative durable infrared optical thin film material. In Lequime M, Ristau D, editors, PROCEEDINGS VOLUME 13020 SPIE OPTICAL SYSTEMS DESIGN | 7-12 APRIL 2024: Advances in Optical Thin Films VIII. Vol. 13020. Society of Photo-Optical Instrumentation Engineers. 2024. 3023594. (SPIE Proceedings). doi: 10.1117/12.3023594

Pulsed DC sputter deposited hydrogenated carbon - an alternative durable infrared optical thin film material

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