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915 nm single-frequency all-PM all-fiber ring laser with kHz-level linewidth
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Single-frequency fiber laser is of principal role either in frontier interdisciplinary science or advanced practical applications. Here, we present a 1-kHz-level linewidth 915 nm all-polarization-maintaining Nd3+-doped single-frequency all-fiber laser featuring a ring cavity configuration. Particularly, a piece of commercial unpumped Nd3+-doped single-cladding silica fiber is employed to achieve a single longitudinal mode operation by forming a dynamic grating. By introducing a fiber amplifier, a 915.24 nm single-frequency all-fiber laser with a linewidth of 1.58 kHz is obtained. To the best of our knowledge, this is the narrowest linewidth, as well as the first ring cavity scheme reported in a Nd3+-doped single-frequency all-fiber laser at the 900 nm band. This work provides significant potential for the future development of high-performance lasers utilizing the 4F3/2-4I9/2 transition of neodymium ions.
Optica Publishing Group
Title: 915 nm single-frequency all-PM all-fiber ring laser with kHz-level linewidth
Description:
Single-frequency fiber laser is of principal role either in frontier interdisciplinary science or advanced practical applications.
Here, we present a 1-kHz-level linewidth 915 nm all-polarization-maintaining Nd3+-doped single-frequency all-fiber laser featuring a ring cavity configuration.
Particularly, a piece of commercial unpumped Nd3+-doped single-cladding silica fiber is employed to achieve a single longitudinal mode operation by forming a dynamic grating.
By introducing a fiber amplifier, a 915.
24 nm single-frequency all-fiber laser with a linewidth of 1.
58 kHz is obtained.
To the best of our knowledge, this is the narrowest linewidth, as well as the first ring cavity scheme reported in a Nd3+-doped single-frequency all-fiber laser at the 900 nm band.
This work provides significant potential for the future development of high-performance lasers utilizing the 4F3/2-4I9/2 transition of neodymium ions.
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