Modeling the response of mesospheric sodium to pulsed-laser excitation

Joschua A. Hellemeier; Paul Hickson; Lucas Labadie

doi:10.1364/JOSAA.34.001376

Journal of the Optical Society of America A
Vol. 34,
Issue 8,
pp. 1376-1382
(2017)
•https://doi.org/10.1364/JOSAA.34.001376

Modeling the response of mesospheric sodium to pulsed-laser excitation

Joschua A. Hellemeier, Paul Hickson, and Lucas Labadie

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Joschua A. Hellemeier, Paul Hickson, and Lucas Labadie, "Modeling the response of mesospheric sodium to pulsed-laser excitation," J. Opt. Soc. Am. A 34, 1376-1382 (2017)

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Abstract

A simulation modeling excitation of the sodium $D_{2}$ line by nanosecond time scale pulsed lasers is described. By numerically integrating transition rates in the sodium hyperfine structure, the return flux per sodium atom is predicted as a function of laser power. The simulation should be useful for studies of mesospheric sodium and adaptive optics. Applications include the estimation of sodium column density from lidar return flux, and of laser guide star brightness for different pulsed laser formats. The simulation assumes that the pulse repetition frequency is sufficiently low (smaller than a few kilohertz) that atomic collisions restore local thermodynamic equilibrium between pulses. It is also assumed that the pulse length is short compared to the Larmor precession time scale. The numerical results are well-approximated by a simple analytic model for a three-level atom. The number of emitted photons is found to be primarily dependent on the product of the length of the laser pulse and the energy density.

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Equations (13)

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$u_{v} ({Jm}^{- 3} {Hz}^{- 1})$	$1 \cdot 10^{- 14}$	$5 \cdot 10^{- 14}$	$1 \cdot 10^{- 13}$	$5 \cdot 10^{- 13}$	$1 \cdot 10^{- 12}$	$5 \cdot 10^{- 12}$	$1 \cdot 10^{- 11}$
4 ns	0.167	0.168	0.170	0.181	0.195	0.267	0.305
6 ns	0.167	0.169	0.171	0.188	0.207	0.288	0.321
8 ns	0.167	0.169	0.172	0.193	0.216	0.301	0.330
10 ns	0.167	0.170	0.173	0.198	0.224	0.309	0.335
12 ns	0.167	0.170	0.174	0.203	0.231	0.316	0.339
14 ns	0.168	0.171	0.175	0.206	0.237	0.320	0.342
16 ns	0.168	0.171	0.176	0.210	0.242	0.324	0.344
18 ns	0.168	0.172	0.177	0.213	0.246	0.327	0.346
20 ns	0.168	0.172	0.177	0.216	0.250	0.329	0.347

$u_{v} ({Jm}^{- 3} {Hz}^{- 1})$	$1 \cdot 10^{- 14}$	$5 \cdot 10^{- 14}$	$1 \cdot 10^{- 13}$	$5 \cdot 10^{- 13}$	$1 \cdot 10^{- 12}$	$5 \cdot 10^{- 12}$	$1 \cdot 10^{- 11}$
4 ns	0.168	0.171	0.175	0.202	0.224	0.274	0.290
6 ns	0.168	0.173	0.179	0.213	0.235	0.280	0.295
8 ns	0.168	0.175	0.182	0.220	0.242	0.283	0.297
10 ns	0.169	0.176	0.185	0.225	0.246	0.285	0.298
12 ns	0.169	0.177	0.187	0.228	0.248	0.285	0.298
14 ns	0.169	0.179	0.189	0.230	0.249	0.285	0.297
16 ns	0.170	0.180	0.191	0.232	0.250	0.284	0.296
18 ns	0.170	0.181	0.192	0.232	0.249	0.282	0.295
20 ns	0.170	0.181	0.193	0.232	0.249	0.281	0.293

$u_{v} ({Jm}^{- 3} {Hz}^{- 1})$	$1 \cdot 10^{- 14}$	$5 \cdot 10^{- 14}$	$1 \cdot 10^{- 13}$	$5 \cdot 10^{- 13}$	$1 \cdot 10^{- 12}$	$5 \cdot 10^{- 12}$	$1 \cdot 10^{- 11}$
4 ns	0.167	0.168	0.170	0.181	0.195	0.267	0.305
6 ns	0.167	0.169	0.171	0.188	0.207	0.288	0.321
8 ns	0.167	0.169	0.172	0.193	0.216	0.301	0.330
10 ns	0.167	0.170	0.173	0.198	0.224	0.309	0.335
12 ns	0.167	0.170	0.174	0.203	0.231	0.316	0.339
14 ns	0.168	0.171	0.175	0.206	0.237	0.320	0.342
16 ns	0.168	0.171	0.176	0.210	0.242	0.324	0.344
18 ns	0.168	0.172	0.177	0.213	0.246	0.327	0.346
20 ns	0.168	0.172	0.177	0.216	0.250	0.329	0.347

$u_{v} ({Jm}^{- 3} {Hz}^{- 1})$	$1 \cdot 10^{- 14}$	$5 \cdot 10^{- 14}$	$1 \cdot 10^{- 13}$	$5 \cdot 10^{- 13}$	$1 \cdot 10^{- 12}$	$5 \cdot 10^{- 12}$	$1 \cdot 10^{- 11}$
4 ns	0.168	0.171	0.175	0.202	0.224	0.274	0.290
6 ns	0.168	0.173	0.179	0.213	0.235	0.280	0.295
8 ns	0.168	0.175	0.182	0.220	0.242	0.283	0.297
10 ns	0.169	0.176	0.185	0.225	0.246	0.285	0.298
12 ns	0.169	0.177	0.187	0.228	0.248	0.285	0.298
14 ns	0.169	0.179	0.189	0.230	0.249	0.285	0.297
16 ns	0.170	0.180	0.191	0.232	0.250	0.284	0.296
18 ns	0.170	0.181	0.192	0.232	0.249	0.282	0.295
20 ns	0.170	0.181	0.193	0.232	0.249	0.281	0.293

Abstract

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Figures (9)

Tables (2)

Equations (13)

Journal of the Optical Society of America A