Fabrication of long period fiber gratings with CO₂ laser fusion splicers

“…In the transmission spectrum of the LPFG, between the resonant wavelengths R1 and R2 , there are low-amplitude side lobes which modify the net gain of the cavity, and we observe that the laser emissions might correspond to these side lobes in the grating transmission. This effect might be produced by the insertion loss due to the accumulated MFD along the LPFG [62]. The shift of the LPFG transmission toward longer wavelengths is produced by the increment the temperature induces on the effective index difference and is observed along all the temperature experiments.…”

“…The length of the LPFG is = Λ, where is the number of tapers and Λ is the period of the perturbation [60]. Furthermore, due to the thermal expansion of the core, the mode field diameter (MFD) is also locally expanded at each taper location [62]. The germanium in the core is diffused toward the cladding [63] increasing the MFD as is shown in [64], in which were observed two bright points of irradiation on an axial cut-off in the middle of the thermally-expanded core, similar to LP11 mode.…”

Switchable Ytterbium Fiber Laser Based on a Symmetrical Long-Period Fiber Grating

“…In the transmission spectrum of the LPFG, between the resonant wavelengths R1 and R2 , there are low-amplitude side lobes which modify the net gain of the cavity, and we observe that the laser emissions might correspond to these side lobes in the grating transmission. This effect might be produced by the insertion loss due to the accumulated MFD along the LPFG [62]. The shift of the LPFG transmission toward longer wavelengths is produced by the increment the temperature induces on the effective index difference and is observed along all the temperature experiments.…”

“…The length of the LPFG is = Λ, where is the number of tapers and Λ is the period of the perturbation [60]. Furthermore, due to the thermal expansion of the core, the mode field diameter (MFD) is also locally expanded at each taper location [62]. The germanium in the core is diffused toward the cladding [63] increasing the MFD as is shown in [64], in which were observed two bright points of irradiation on an axial cut-off in the middle of the thermally-expanded core, similar to LP11 mode.…”

Switchable Ytterbium Fiber Laser Based on a Symmetrical Long-Period Fiber Grating

“…With this size of the laser spot, the fiber can be heated without introducing extra damage, such as an etching effect. The inventors of the LZM-100 have proposed a method to manufacture a periodically-tapered LPFG [ 15 ]. With the advantages of the device, Masri proposed a new kind of LPFG that has a strong asymmetric structure [ 16 ], and it can be used as a mode-selective device.…”

Manufacturing a Long-Period Grating with Periodic Thermal Diffusion Technology on High-NA Fiber and Its Application as a High-Temperature Sensor

High-sensitivity bending vector sensor based on γ-shaped long-period fiber grating