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Items: 1 to 20 of 103

1.

Development of a differential column image motion light detection and ranging for measuring turbulence profiles.

Jing X, Hou Z, Wu Y, Qin L, He F, Tan F.

Opt Lett. 2013 Sep 1;38(17):3445-7. doi: 10.1364/OL.38.003445.

PMID:
23988980
2.

Experimental validation of the differential image motion lidar concept.

Belen'kii MS, Roberts DW, Stewart JM, Gimmestad GG, Dagle WR.

Opt Lett. 2000 Apr 15;25(8):518-20.

PMID:
18064097
3.

Laser differential image-motion monitor for characterization of turbulence during free-space optical communication tests.

Brown DM, Juarez JC, Brown AM.

Appl Opt. 2013 Dec 1;52(34):8402-10. doi: 10.1364/AO.52.008402.

PMID:
24513845
4.

Pupil plane imager for estimation of turbulence over long horizontal paths.

Holmes RB, Hughes WM.

Appl Opt. 2007 Aug 10;46(23):5979-86.

PMID:
17694153
5.

Use of a moiré deflectometer on a telescope for atmospheric turbulence measurements.

Rasouli S.

Opt Lett. 2010 May 1;35(9):1470-2. doi: 10.1364/OL.35.001470.

PMID:
20436606
6.
7.

Experimental validation of a technique to measure tilt from a laser guide star.

Belen'kii MS, Karis SJ, Brown JM 2nd, Fugate RQ.

Opt Lett. 1999 May 15;24(10):637-9.

PMID:
18073807
8.

Heterodyne Doppler 1-microm lidar measurement of reduced effective telescope aperture due to atmospheric turbulence.

Chan KP, Killinger DK, Sugimoto N.

Appl Opt. 1991 Jun 20;30(18):2617-27. doi: 10.1364/AO.30.002617.

PMID:
20700251
9.

Tentative detection of clear-air turbulence using a ground-based Rayleigh lidar.

Hauchecorne A, Cot C, Dalaudier F, Porteneuve J, Gaudo T, Wilson R, Cénac C, Laqui C, Keckhut P, Perrin JM, Dolfi A, Cézard N, Lombard L, Besson C.

Appl Opt. 2016 May 1;55(13):3420-8. doi: 10.1364/AO.55.003420.

PMID:
27140350
10.
11.

Oceanic lidar: radiative transfer in the atmosphere at operating altitudes from 100 m to 100 km.

Bartsch B, Braeske T, Reuter R.

Appl Opt. 1993 Nov 20;32(33):6732-41. doi: 10.1364/AO.32.006732.

PMID:
20856526
12.

Edge technique Doppler lidar wind measurements with high vertical resolution.

Korb CL, Gentry BM, Li SX.

Appl Opt. 1997 Aug 20;36(24):5976-83.

PMID:
18259439
13.

Real-time turbulence profiling with a pair of laser guide star Shack-Hartmann wavefront sensors for wide-field adaptive optics systems on large to extremely large telescopes.

Gilles L, Ellerbroek BL.

J Opt Soc Am A Opt Image Sci Vis. 2010 Nov 1;27(11):A76-83. doi: 10.1364/JOSAA.27.000A76.

PMID:
21045893
14.

Isoplanatism in a multiconjugate adaptive optics system.

Tokovinin A, Le Louarn M, Sarazin M.

J Opt Soc Am A Opt Image Sci Vis. 2000 Oct;17(10):1819-27.

PMID:
11028530
15.

Hot-air optical turbulence generator for the testing of adaptive optics systems: principles and characterization.

Keskin O, Jolissaint L, Bradley C.

Appl Opt. 2006 Jul 10;45(20):4888-97.

PMID:
16807596
16.

High-resolution ground-based coronagraphy using image-motion compensation.

Golimowski DA, Clampin M, Durrance ST, Barkhouser RH.

Appl Opt. 1992 Aug 1;31(22):4405-16. doi: 10.1364/AO.31.004405.

PMID:
20725435
17.

High-spectral-resolution lidar with iodine-vapor filters: measurement of atmospheric-state and aerosol profiles.

Hair JW, Caldwell LM, Krueger DA, She CY.

Appl Opt. 2001 Oct 20;40(30):5280-94.

PMID:
18364809
18.

Intrapulse temporal and wavelength shifts of a high-power 2.1-µm Ho:YAG laser and their potential influence on atmospheric lidar measurements.

Vaidyanathan M, Killinger DK.

Appl Opt. 1994 Nov 20;33(33):7747-53. doi: 10.1364/AO.33.007747.

PMID:
20962985
19.

Compact airborne lidar for tropospheric ozone: description and field measurements.

Ancellet G, Ravetta FO.

Appl Opt. 1998 Aug 20;37(24):5509-21.

PMID:
18286036
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