Yüksek Güçlü Lazer Silah Sistemlerinin Türk Deniz Kuvvetleri Komutanlığı Envanterindeki Savaş Gemilerine Entegrasyonu

Year 2024, Volume: 24 Issue: 1, 40 - 52, 27.02.2024

Fehmi Sandıkçı Nigar Berna Teşneli Ahmet Yahya Teşneli

https://doi.org/10.35414/akufemubid.1300626

Abstract

Bu çalışma kapsamında Yüksek Güçlü Lazer Silah Sistemlerinin (YGLSS) Türk Deniz Kuvvetleri Komutanlığı envanterindeki savaş gemilerine entegrasyonu incelenmiştir. Savaş gemileri için önemli bir tehdit olan insansız hava ve deniz araçlarının etkisiz hale getirilebilmesi için ihtiyaç duyulan YGLSS çıkış güçleri hesaplanarak bu çıkış gücüne sahip sistem için gerekli olan elektriksel güç ve montaj alanı belirlenmiştir. Elde edilen değerler Türk Deniz Kuvvetleri Komutanlığı envanterindeki savaş gemilerinin alt yapısı ile karşılaştırılarak entegrasyon için uygun gemiler belirlenmiştir. Sonuç olarak; belirli senaryolar dahilinde Türk Deniz Kuvvetleri Komutanlığı envanterindeki fırkateynlerin, korvetlerin ve hücumbotların entegrasyon için uygun olduğu ancak sistem boyutlarından dolayı bazı tadilatların yapılması gerektiği değerlendirilmiştir.

Keywords

Yüksek güçlü lazer silah sistemi, Savaş gemileri, İnsansız hava araçları, İnsansız deniz araçları

The Integration of High Power Laser Weapon Systems into The Turkish Naval Forces Warships

Abstract

The integration of High Power Laser Weapon Systems (HPLWS) into the warships in the inventory of the Turkish Naval Force Command has been examined. By calculating the needed output power of HPLWS for the destruction of unmanned aerial vehicles (UAVs) and unmanned surface vehicles (USVs) which is an important threat for the warships, the electrical power and installation area required for the system with this output power were determined. The obtained values were compared with the substructure of the warships in the inventory of the Turkish Naval Forces Command and the appropriate ships for integration were determined. As a result it is evaluated that frigates, corvettes and assault boats in the inventory of Turkish Navy Command are suitable for integration within certain scenarios but some modifications may be required due to the system dimensions.

Keywords

High power laser weapon system, Warships, Unmanned aerial vehicle (UAV), Unmanned surface vehicle (USV)

References

• Ang, C.N., 2012. Analysis of High Energy Laser Weapon Employment from a Navy Ship. Yüksek Lisans Tezi, Naval Postgraduate School, California, USA, 87
• Fussman, C.R., 2014. High Energy Laser Propagation in Various Atmospheric Conditions Utilizing a New, Accelerated Scaling Code. Yüksek Lisans Tezi, Naval Postgraduate School, California, USA, 87
• Gildemeyer, S.J., Hager, D.B., Liensdorf, D., Malone, A.C., and Mugerditchian, K.A., 2018. Analysis of Shipboard Effects and Coverage for the Integration of a High-Energy Laser on a LPD 17. Yüksek Lisans Tezi, Naval Postgraduate School, California, USA, 147
• Jha, A. R., 2016. Theory, Design, and Applications of Unmanned Aerial Vehicles, CRC Press, 256.
• Michnewich, D.A., 2018. Modeling Energy Storage Requirements For High-Energy Lasers On Navy Ships. Yüksek Lisans Tezi, Naval Postgraduate School, California, USA, 105
• O'Rourke R., 2022. Navy Shipboard Lasers: Background and Issues for Congress. Congressional Research Service, R44175, 2-21
• O'Rourke R., 2015. Navy shipboard lasers for surface, air, and missile defense: Background and issues for Congress. Congressional Research Service, R41526, 2-19
• Sabatini R. and Richardson M. A., 2010. Airborne Laser Systems Testing and Analysis, Research and Technology Organisation North Atlantic Treaty Organisation, AG-300-V26, 91.
• Taylor, A.B., 2021. Counter-Unmanned Aerial Vehicles Study: Shipboard Laser Weapon System Engagement Strategies for Countering Drone Swarm Threats in The Maritime Environment. Yüksek Lisans Tezi, Naval Postgraduate School, California, USA, 95
• Weichel, H., 1990. Laser beam propagation in the atmosphere, Volume TT3, Roy F.P., USA: SPIE Optical Engineering Press, 12–23.
• Trevithick J., Here’s Our First Look At A HELIOS Laser-Armed Navy Destroyer, https://www.thedrive.com/the-war-zone/heres-our-first-look-at-a-helios-laser-armed-navy-destroyer , (22.05.2023)
• Araca Monte Milli Lazer Sistemi (ARMOL), https://bilgem.tubitak.gov.tr/tr/haber/araca-monte-milli-lazer-sistemi-armol , (22.05.2023)
• Lister T., A Russian naval base was targeted by drones,https://edition.cnn.com/2022/10/31/europe/sevastopol-drone-russia-ukraine-grain-intl-cmd/index.html , (22.05.2023)
• Axe D., Ukraine’s Drone Boats, https://www.forbes.com/sites/davidaxe/2022/11/20/the-ukrainian-navy-has-no-big-warships-its-winning-the-naval-war-anyway-with-drones/?sh=36b5bb214fc5 , (22.05.2023)
• https://www.dearsan.com/pdfler/DEARSAN-57m-Patrol-Vessel.pdf , (22.05.2023)
• https://www.dzkk.tsk.tr/Destek/icerik/gabya-sinifi , (22.05.2023)
• https://www.dzkk.tsk.tr/Destek/icerik/ barbaros-sinifi , (22.05.2023)
• https://www.dzkk.tsk.tr/Destek/icerik/ yavuz-sinifi , (22.05.2023)
• https://www.dzkk.tsk.tr/Destek/icerik/ada-sinifi, (22.05.2023)
• https://www.dzkk.tsk.tr/Destek/icerik/burak-sinifi, (22.05.2023)
• https://www.dzkk.tsk.tr/Destek/icerik/dogan-sinifi, (22.05.2023)
• https://www.dzkk.tsk.tr/Destek/icerik/ ruzgar-sinifi, (22.05.2023)
• https://www.dzkk.tsk.tr/Destek/icerik/yildiz-sinifi, (22.05.2023)
• https://www.dzkk.tsk.tr/Destek/icerik/kilic-sinifi, (22.05.2023)
• Harpy, https://www.israeli-weapons.com/weapons/aircraft/uav/harpy/HARPY.html , (22.05.2023)
• Paschotta R., Fluence, https://www.rp-photonics.com/fluence.html, (13.11.2023)
• Polezhaev Y.V., Melting, https://www.thermopedia.com/content/947/, (13.11.2023)
• Paschotta R., Fluence, https://www.rp-photonics.com/power_density.html , (13.11.2023)
• Paschotta R., Reflectivity, https://www.rp-photonics.com/reflectivity.html, (13.11.2023)
• Spot Size and Beam Waist, https://www.gentec-eo.com/laser-calculators/beam-waist-spot-size , (13.11.2023)
• Fleet-class unmanned surface vessel, https://en.wikipedia.org/wiki/Fleet-class_ unmanned_surface_vessel , (22.05.2023)