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Results: 1 to 20 of 172

Similar articles for PubMed (Select 22614472)

1.

Method to measure the second-order birefringence vector distribution along optical fibers based on high-speed polarization optical time domain reflectometry.

Shang C, Wu C, Wang Z, Wang Y, Wang J, Li Z, Yang S.

Appl Opt. 2012 May 10;51(14):2548-53. doi: 10.1364/AO.51.002548.

PMID:
22614472
2.

On-field distributed first-order PMD measurement based on pOTDR and optical pulse width sweep.

Franciscangelis C, Floridia C, Simões GC, Schmmidt F, Fruett F.

Opt Express. 2015 May 18;23(10):12582-94. doi: 10.1364/OE.23.012582.

PMID:
26074513
3.

Single input state, single-mode fiber-based polarization-sensitive optical frequency domain imaging by eigenpolarization referencing.

Lippok N, Villiger M, Jun C, Bouma BE.

Opt Lett. 2015 May 1;40(9):2025-8. doi: 10.1364/OL.40.002025.

4.

Determination of birefringence and slow axis distribution using an interferometric measurement system with liquid crystal phase shifter.

Nose T, Kamata K, Takeuchi T, Okano K, Fujita N, Muraguchi H, Ozaki N, Honma M, Ito R.

Appl Opt. 2014 Nov 1;53(31):7230-5. doi: 10.1364/AO.53.007230.

PMID:
25402881
5.

Dynamic optical frequency domain reflectometry.

Arbel D, Eyal A.

Opt Express. 2014 Apr 21;22(8):8823-30. doi: 10.1364/OE.22.008823.

PMID:
24787772
6.

Jones birefringence in twisted single-mode optical fibers.

Tentori D, Garcia-Weidner A.

Opt Express. 2013 Dec 30;21(26):31725-39. doi: 10.1364/OE.21.031725.

PMID:
24514769
7.

Linear birefringence magnitude of artificial self-assembled DNA crystals.

Lehmuskero A, Hakulinen N, Lajunen H, Zheng J, Sha R, Bai B, Huang L, Turunen J, Vahimaa P, Seeman NC.

Opt Mater Express. 2011 Sep 1;1(5):936-942.

8.

Note: In situ measurement of vacuum window birefringence by atomic spectroscopy.

Steffen A, Alt W, Genske M, Meschede D, Robens C, Alberti A.

Rev Sci Instrum. 2013 Dec;84(12):126103. doi: 10.1063/1.4847075.

PMID:
24387479
10.

1.5 μm orthogonally polarized dual-output heralded single photon source based on optical fibers with birefringence.

Ma T, Zhou Q, Zhang W, Huang Y, Cui X, Lu M, Zhou B.

Opt Express. 2013 Jul 1;21(13):15364-72. doi: 10.1364/OE.21.015364.

PMID:
23842322
11.

Lens design with reduced sensitivity to thermally induced stress birefringence.

Kurtz AF, Bietry JR.

Appl Opt. 2013 Jun 20;52(18):4311-22. doi: 10.1364/AO.52.004311.

PMID:
23842174
13.

In-line, fiber-optic polarimetric twist/torsion sensor.

Lesnik D, Donlagic D.

Opt Lett. 2013 May 1;38(9):1494-6. doi: 10.1364/OL.38.001494.

PMID:
23632529
14.

Modulation instability-induced fading in phase-sensitive optical time-domain reflectometry.

Martins HF, Martin-Lopez S, Corredera P, Salgado P, Frazão O, González-Herráez M.

Opt Lett. 2013 Mar 15;38(6):872-4. doi: 10.1364/OL.38.000872.

PMID:
23503244
15.

Polarization-maintaining property of tapered polarization-maintaining fibers.

Wang X, Niedermayer G, Lin G, Lu P, Wang B, Chen L, Bao X.

Appl Opt. 2013 Mar 10;52(8):1550-4. doi: 10.1364/AO.52.001550.

PMID:
23478756
16.

Note: reducing polarization induced sidebands in Rayleigh backscattering spectra for accurate distributed strain measurement using optical frequency-domain reflectometry.

Ding Z, Yao XS, Liu T, Du Y, Liu K, Han Q, Meng Z, Li D.

Rev Sci Instrum. 2013 Feb;84(2):026101. doi: 10.1063/1.4790472.

PMID:
23464263
17.

Distributed birefringence measurement with beat period detection of homodyne Brillouin optical time-domain reflectometry.

Lu Y, Bao X, Chen L, Xie S, Pang M.

Opt Lett. 2012 Oct 1;37(19):3936-8. doi: 10.1364/OL.37.003936.

PMID:
23027237
18.

Distributed liquid level sensors using self-heated optical fibers for cryogenic liquid management.

Chen T, Wang Q, Chen R, Zhang B, Lin Y, Chen KP.

Appl Opt. 2012 Sep 10;51(26):6282-9. doi: 10.1364/AO.51.006282.

PMID:
22968264
19.
20.

Second-order derivatives of optical path length of ray with respect to variable vector of source ray.

Chen YB, Lin PD.

Appl Opt. 2012 Aug 1;51(22):5552-62. doi: 10.1364/AO.51.005552.

PMID:
22859047
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