Nonlinear optical properties of silicon nanoclusters

Authors

S. Vijayalakshmi, New Jersey Institute of Technology
H. Grebel, New Jersey Institute of Technology
J. F. Federici, New Jersey Institute of Technology
A. M. Johnson, New Jersey Institute of Technology

Document Type

Conference Proceeding

Publication Date

1-1-1997

Abstract

Samples containing Si clusters were prepared using KrF laser ablation (λ = 248 nm, average power = 3 W, pulse duration = 8 ns, repetition rate 50 Hz) of a silicon wafer target in vacuum on a quartz substrate. Atomic force microscopy measured the size distribution of the clusters. Z-scan experiments were performed at λ = 355 and 532 nm to measure the linear refractive index. A pump-probe technique determined the temporal response of the nonlinearity at 355 and 532 nm. Si nanoclusters on quartz exhibits a strong nonlinearity at λ = 355 and 532 nm. The clusters of average size of 11 nm absorbs strongly at λ = 355 nm and possessed Re{χ⁽³⁾}>0, whereas the larger clusters of average size 50 nm absorbs strongly at λ = 532 nm and exhibits Re{χ⁽³⁾}<0.

Identifier

0030655115 (Scopus)

Publication Title

Conference on Quantum Electronics and Laser Science QELS Technical Digest Series

First Page

185

Volume

12

Recommended Citation

Vijayalakshmi, S.; Grebel, H.; Federici, J. F.; and Johnson, A. M., "Nonlinear optical properties of silicon nanoclusters" (1997). Faculty Publications. 16765.
https://digitalcommons.njit.edu/fac_pubs/16765