Title page for ETD etd-07242008-112947

Type of Document Dissertation
Author Arabasi, Sameer
Author's Email Address sarabasi@vt.edu
URN etd-07242008-112947
Title Tapered Splice for Efficient Power Coupling to Small-Core Nonlinear Fibers
Degree PhD
Department Physics
Advisory Committee
Advisor Name Title
Indebetouw, Guy J. Committee Chair
Safaai-Jazi, Ahmad Committee Co-Chair
Heflin, James R. Committee Member
Pitt, Mark L. Committee Member
  • Optical waveguides
  • Tapered single-mode fibers
  • Tapered splices
  • Tapered couplers
Date of Defense 2008-07-15
Availability unrestricted
There is continued interest in nonlinear devices for different types of optical signal processing, such as Raman or parametric amplifiers. The small nonlinearity of conventional single-mode fibers sets a major limitation for these devices. A large nonlinearity can be achieved by having a large nonlinear coefficient, a small effective area, or both. Having a small effective area, however, requires efficient coupling to very small

core fibers.

A novel technique for splicing conventional single-mode fibers to small core fibers is proposed and demonstrated. The coupling efficiency obtained by this technique is considerably improved over that obtained by the butt-joint splice. This technique uses a highly

tapered splice in which the field leaves the core and propagates as a fundamental cladding mode before it couples back to the core mode

of the small core fiber. At the beginning of the taper the fundamental core mode carries most of the power. Over the down-taper region, the core mode couples to the fundamental cladding mode for

which the cladding-air interface plays a major role in guiding the light. Over the up-taper region, the cladding mode is coupled back

to the core mode. Fabrication of such a device involves many constraints. Alignment of the cores, the slope of the taper, and the

taper length are important issues to ensure that excessive radiation loss does not take place.

The theory of tapered single-mode fiber is discussed including adiabaticity criteria, length considerations, mode coupling and wavelength dependence. We use a computational simulation to examine how the field changes from one part of the taper to the other. Variations of the fiber and the field properties along the taper are

studied. In this simulation, the tapered region is approximated as a sufficiently large number of cascaded uniform fiber segments of decreasing or increasing diameters. Another analysis based on the conservation of power flow is also provided.

Tapered splices were fabricated using two different experimental setups. The experimental setup to verify our theoretical results is shown. The tapering process is thoroughly discussed. The spectrum of a tunable laser passing through a splice shows how modes interact with each other during the tapering process. We successfully fabricated very low loss tapers with extremely small diameters. Tapered splices showed a lower loss than their butt-joint counterparts. Experimental measurements of these tapered splices are presented and discussed.

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