Giant-chirp all-normal-dispersion sub-nanosecond fiber oscillator

The invention claimed is: 1. An all normal dispersion self-starting single mode (SM) pulsed fiber oscillator, comprising: an 8-shaped resonant ring cavity provided with: a mode-locking fiber loop component configured to provide a pulse with a first phase acquisition due to a Self-Phase Modulation (SPM) phenomenon, the mode locking fiber loop component including a Polarization maintaining linearly polarized (LP) fused fiber coupler, a first fiber amplifier of the mode locking fiber loop component located asymmetrically relative to the LP fiber coupler, and a first coil of SM passive fiber located between an output of the first fiber amplifier and the fiber coupler, and a giant chirp generating fiber loop component coupled to the LP fused fiber coupler to receive the pulse with the first phase acquisition and configured to provide the pulse with a second phase acquisition due to the SPM phenomenon, wherein the second phase acquisition is so greater than the first phase acquisition that the giant chirp generating fiber component outputs the pulse with a giant chirp, the giant chirp generating fiber components including a second fiber amplifier, the first and second fiber amplifiers each being side-pumped and having: an active fiber with a multimode (MM) core having a double bottle-neck shaped cross-section which has spaced apart relatively small-diameter ends flanking a relatively large diameter central portion, wherein the MM core is configured to support propagation of a single fundamental mode at a desired wavelength in a 1 micron wavelength range; and input and output single mode (SM) fibers spliced to respective ends of the active fiber and having respective SM cores, the SM cores each having a mode field diameter (MFD) which matches a MFD of a fundamental mode supported by the MM core, wherein the SM pulsed fiber oscillator is configured without a wavelength division multiplexer (WDM). 2. The SM fiber oscillator of claim 1 , wherein the output coupler has an asymmetric structure so that the mode locking fiber loop component is configured as a hybrid of NOLM and NALM architectures. 3. The SM pulsed fiber oscillator of claim 1 , wherein the giant chirp generating fiber component further includes a second coil of SM passive fiber coupled to an output of the second fiber amplifier and a first linear polarized isolator coupled between the fused coupler and an input of the second fiber amplifier and preventing coupling of radiation backreflected from the second fiber amplifier into the first fiber amplifier. 4. The SM pulsed fiber oscillator of claim 3 , wherein the giant chirp generating fiber component further includes a second linearly polarized isolator coupled between an output of the second fiber amplifier and the fused coupler and operative to prevent coupling of radiation reflected from the fused coupler into the output of the second fiber amplifier. 5. The SM pulsed fiber oscillator of claim 4 , wherein the giant chirp generating fiber component further includes an output coupler between the output of the second fiber amplifier and second linearly polarized isolator, the output coupler being a beam splitter. 6. The SM pulsed fiber oscillator of claim 1 , wherein the giant chirp generating fiber component further includes a filter providing periodic narrowing of spectral and temporal shapes of the pulse. 7. The SM pulsed fiber oscillator of claim 1 further comprising a plurality of MM pumps coupled to respective active fibers to define a side pumping technique.