Ultrafast laser apparatus

The invention claimed is: 1. A laser apparatus comprising: a fiber oscillator operably producing pulses with energy greater than 100 nJ and a pulse duration less than 200 fs; and gain and passive fibers, at least one of the fibers having a length greater than 10 m, and the at least one fiber being flexibly looped with a loop diameter less than 150 mm without optical degradation. 2. The laser apparatus of claim 1 , further comprising a laser pulse having a cluster of sub-pulses with duration less than 1 ps per sub-pulse and an unamplified energy greater than 100 nJ emitted from the oscillator fiber, and a duration of the cluster being greater than 100 fs. 3. The laser apparatus of claim 1 , wherein the oscillator has a repetition rate less than 5 MHz and the emitted laser pulse has an unamplified energy greater than 300 nJ. 4. The laser apparatus of claim 1 , wherein the emitted laser pulse creates discrete sub-pulses clustered together with a sub-pulse delay shorter than 3 ps, with each sub-pulse having a duration less than 1 ps, and the clustered sub-pulses are insensitive to dispersion, free of amplification. 5. The laser apparatus of claim 1 , further comprising a portable housing, a diode pump laser and a spectrometer, the housing containing the entire oscillator and spectrometer, and the housing having an external size with a total volume less than 1/10 m3 excluding the diode pump laser in the volume. 6. The laser apparatus of claim 1 , further comprising an endoscope fiber located downstream of the oscillator fiber. 7. The laser apparatus of claim 1 , further comprising a specimen or workpiece, and a series of unamplified laser pulses emitted from the oscillator fiber and acting upon the specimen or workpiece. 8. The laser apparatus of claim 1 , further comprising a Laser-Induced Breakdown Spectroscopy detection system including a spectrometer, located downstream of the fiber. 9. The laser apparatus of claim 1 , further comprising a diode laser pumping the fiber oscillator. 10. The laser apparatus of claim 1 , wherein the fiber oscillator comprises a Yb doped gain fiber. 11. The laser apparatus of claim 1 , further comprising a micromachining unit receiving the pulses to ablate material. 12. The laser apparatus of claim 1 , further comprising a surgical unit receiving the pulses to cut tissue. 13. The laser apparatus of claim 1 , wherein the fiber oscillator exceeds a threshold of soliton stability and produces the pulses with energy of at least 300 nJ. 14. The laser apparatus of claim 1 , wherein the fiber oscillator includes a fiber with a length of at least 100 m.