We will review the influence of fiber fabrication and selection of pump wavelengths on gain, noise figure and laser efficiency of Bismuth (Bi)-doped fiber amplifiers and lasers operating in the wavelength region of 1150-1400nm
We demonstrate the capability for amplification of picosecond pulses in two bismuth-doped alumosilic...
With the rapid development of optical fiber technology, fiber loss has been greatly reduced in spect...
The demand for fibre optic communication is continuously increasing over the years. This is due to ...
This paper will review the influence of fiber fabrication and selection of pump wavelength on the pe...
Bismuth (Bi)-doped fibers paved the way to develop amplifiers and lasers in 1150-1800nm wavelength r...
Here, we review our recent results in BASFs and BPSFs those were fabricated by the MCVD-solution dop...
Bismuth (Bi)-doped optical fibers are of great interest because of the broad luminescence offered by...
Bismuth (Bi) doped fibers have shown promising potential for lasers and amplifiers in the 1150-1500 ...
Bi-doped phosphosilicate fibers are fabricated by MCVD-solution doping technique under different oxi...
Development of lasers and amplifiers in new wavelength regions have been the research interest for d...
Bismuth (Bi)-doped fibers provide great potential for developing optical amplifiers in the low-loss ...
Bismuth (Bi)-doped fibres paved the way to develop amplifiers and lasers in the 1150-1500nm waveleng...
Bismuth (Bi)-doped fibers offer a great potential to develop fiber sources in the 1150-1800nm wavele...
In this article, we experimentally demonstrate an all-fiber optical amplifier using Bi-doped phospho...
Development of broadband source and amplifier would be indispensable in the low loss telecommunicati...
We demonstrate the capability for amplification of picosecond pulses in two bismuth-doped alumosilic...
With the rapid development of optical fiber technology, fiber loss has been greatly reduced in spect...
The demand for fibre optic communication is continuously increasing over the years. This is due to ...
This paper will review the influence of fiber fabrication and selection of pump wavelength on the pe...
Bismuth (Bi)-doped fibers paved the way to develop amplifiers and lasers in 1150-1800nm wavelength r...
Here, we review our recent results in BASFs and BPSFs those were fabricated by the MCVD-solution dop...
Bismuth (Bi)-doped optical fibers are of great interest because of the broad luminescence offered by...
Bismuth (Bi) doped fibers have shown promising potential for lasers and amplifiers in the 1150-1500 ...
Bi-doped phosphosilicate fibers are fabricated by MCVD-solution doping technique under different oxi...
Development of lasers and amplifiers in new wavelength regions have been the research interest for d...
Bismuth (Bi)-doped fibers provide great potential for developing optical amplifiers in the low-loss ...
Bismuth (Bi)-doped fibres paved the way to develop amplifiers and lasers in the 1150-1500nm waveleng...
Bismuth (Bi)-doped fibers offer a great potential to develop fiber sources in the 1150-1800nm wavele...
In this article, we experimentally demonstrate an all-fiber optical amplifier using Bi-doped phospho...
Development of broadband source and amplifier would be indispensable in the low loss telecommunicati...
We demonstrate the capability for amplification of picosecond pulses in two bismuth-doped alumosilic...
With the rapid development of optical fiber technology, fiber loss has been greatly reduced in spect...
The demand for fibre optic communication is continuously increasing over the years. This is due to ...
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