| Issue |
J. Phys. III France
Volume 3, Number 9, September 1993
|
|
|---|---|---|
| Page(s) | 1909 - 1909 | |
| DOI | https://doi.org/10.1051/jp3:1993277 | |
DOI: 10.1051/jp3:1993277
J. Phys. III France 3 (1993) 1909-1909
"Some appropriate rotation points have been demonstrated experimentally, (R 1 (96] or R 2 [99] however, we have recently determined rigorously the optimal rotation axis position which should be located on the straight line (R 1 R 2) to suppress mode hopping to the first order, the best point being R 4 which can provide a theoretical tuning range broader than 30 nm free of mode hops around 1.5
m [100]."
replace them by:
"Some appropiate rotation points have been demonstrated experimentally, R 1 (96] or R 2 [99]. We have recently calculated that the best rotation point is effectively R 2. This point can provide a theoretical tuning range broader than 30 nm free of mode hops around 1.5 [100]."
II) On the bottom of page 1576, the previous figure 16 and its caption have to be replaced by the following one: Fig. 16. Particular rotation axes: R 1, suggested in [96]; R2, suggested in [99]; R2 found with our model in [100].
© Les Editions de Physique 1993
J. Phys. III France 3 (1993) 1909-1909
Erratum
The frequency control of laser diodes
M. de Labachelerie, C. Latrasse, P. Kemssu and P. CerezErratum of J. Phys. III France 2 p. 1557
Abstract
I)On the bottom of page 1576 and on the top of page 1577, instead of
reading the sentences:
"Some appropriate rotation points have been demonstrated experimentally, (R 1 (96] or R 2 [99] however, we have recently determined rigorously the optimal rotation axis position which should be located on the straight line (R 1 R 2) to suppress mode hopping to the first order, the best point being R 4 which can provide a theoretical tuning range broader than 30 nm free of mode hops around 1.5
m [100]."
replace them by:
"Some appropiate rotation points have been demonstrated experimentally, R 1 (96] or R 2 [99]. We have recently calculated that the best rotation point is effectively R 2. This point can provide a theoretical tuning range broader than 30 nm free of mode hops around 1.5
[100]."
II) On the bottom of page 1576, the previous figure 16 and its caption have to be replaced by the following one: Fig. 16. Particular rotation axes: R 1, suggested in [96]; R2, suggested in [99]; R2 found with our model in [100].
© Les Editions de Physique 1993