一直以來,對于乙炔鎖頻激光系統(tǒng)的科學(xué)研究,要求1542nm種子激光器具有窄線寬、無跳模、高可靠特性。例如在頻率梳、光譜學(xué)、計量學(xué)或激光冷卻及俘獲的科研領(lǐng)域,長久的穩(wěn)定性和精確的波長控制對于鎖定和穩(wěn)定波長至關(guān)重要。
基于KOHERAS BASIK X15的高穩(wěn)定和窄線寬激光器系統(tǒng)
基于乙炔鎖頻激光技術(shù),可以獲得更高的波長穩(wěn)定性系統(tǒng), 對此,NKT Photonics針對1542nm激光器優(yōu)化產(chǎn)品性能,目前Koheras BASIK X15已經(jīng)逐步成為基于乙炔鎖頻系統(tǒng)中種子激光器的選擇。更為重要的是,Koheras BASIK X15模塊是目前商用級別中線寬最窄且無跳模的激光器,洛倫茲線寬<100Hz。
基于乙炔吸收的穩(wěn)頻激光器系統(tǒng)結(jié)構(gòu)如上圖所示,其中種子激光是NKT Photonics的Koheras BASIK X15,波長為1542nm。
相位噪聲指標(biāo)規(guī)格如下:
Koheras BASIK X15既可以用于石油鉆井平臺,因為其具有更高的可靠性,也可以用于科研實驗平臺,因其具有良好的規(guī)格指標(biāo)。
Koheras光纖激光器結(jié)構(gòu)緊湊,在惡劣環(huán)境中可以正常運行的壽命超過10年,且故障率低于1%,因其優(yōu)異的光學(xué)和結(jié)構(gòu)設(shè)計,使得Koheras激光器免校準(zhǔn)和免維護,使用起來更加便捷且可靠。
NKT Photonics工業(yè)級OEM激光器結(jié)構(gòu)設(shè)計可靠、抗環(huán)境影響能力強,無論室外和室內(nèi)的工作環(huán)境,都可以保證性能指標(biāo),其已經(jīng)為眾多先進的實驗室提供了激光器,例如丹麥國家計量研究所和尼爾斯玻爾研究所的光學(xué)和光子學(xué)實驗室等。
NKT Photonics已經(jīng)銷售了超過15000臺Koheras激光器,該激光器可以用于石油鉆井平臺勘探、潛艇勘察、風(fēng)力渦輪機檢測,甚至在太空探索中也有應(yīng)用。NKT對于窄線寬激光器的研究已經(jīng)超過20年,并且NKT在窄線寬激光領(lǐng)域會持續(xù)前進,相信不久的將來,它將出現(xiàn)在您的實驗室中。
參考文獻
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[2]Optical Frequency References thesis by Martin Romme Henriksen, Niels Bohr Institute, 2019.
[3]Optical frequency standard of continuous wave for fiber communication based on optical comb by Ruiyuan Liu, Ye Li, Cheng Qian, Dawei Li, Jianxiao Leng, Jianye Zhao published in Optics Communications, 2018.
[4]Investigating the use of the hydrogen cyanide (HCN) as an absorption media for laser spectroscopy by Martin Hosek, Simon Rerucha, Lenka Pravdova, Martin Cizek, Jan Hrabina, Petr Jedlicka and Ondrej Cip, published in SPIE Proceedings of the 21st Czech-Polish-Slovak Optical Conference on Wave and Quantum Aspects of Contemporary Optics, 2018.
[5]Enhancement of the performance of a fiber-based frequency comb by referencing to an acetylene-stabilized fiber laser by Thomas Talvard, Philip G. Westergaard, Michael V. DePalatis, Nicolai F. Mortensen, Michael Drewsen, Bjarke G?th, Jan Hald, published in Optics Express 2017.
[6]Optical frequency standard using acetylene-filled hollow-core photonic crystal fibers by Marco Triches, Mattia Michieletto, Jan Hald, Jens Kristian Lyngs?, Jesper L?gsgaard, Ole Bang published in Optics Express, 2015.
翻譯:翟宇佳
