Journal
ADVANCED FUNCTIONAL MATERIALS
Volume 19, Issue 19, Pages 3077-3083Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.200901007
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Funding
- NRF-CRP award
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The optical conductance of monolayer graphene is defined solely by the fine structure constant, alpha = e(2)/(h) over bar hc (where e is the electron charge, (h) over bar is Dirac's constant and c is the speed of light). The absorbance has been predicted to be independent of frequency. In principle, the interband optical absorbtion in zero-gap graphene could be saturated readily under strong excitation due to Pauli blocking. Here, use of atomic layer graphene as saturable absorber in a mode-locked fiber laser for the generation of ultrashort soliton pulses (756 fs) at the telecommunication band is demonstrated. The modulation depth can be tuned in a wide range from 66.5% to 6.2% by varying the graphene thickness. These results suggest that ultrathin graphene films are potentially useful as optical elements in fiber lasers. Graphene as a laser mode locker can have many merits such as lower saturation intensity, ultrafast recovery time, tunable modulation depth, and wideband tunability.
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