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Results: 1 to 20 of 104

Similar articles for PubMed (Select 24921991)

1.

Design of wide-angle selective absorbers/emitters with dielectric filled metallic photonic crystals for energy applications.

Chou JB, Yeng YX, Lenert A, Rinnerbauer V, Celanovic I, Soljačić M, Wang EN, Kim SG.

Opt Express. 2014 Jan 13;22 Suppl 1:A144-54. doi: 10.1364/OE.22.00A144.

PMID:
24921991
2.

Global optimization of omnidirectional wavelength selective emitters/absorbers based on dielectric-filled anti-reflection coated two-dimensional metallic photonic crystals.

Yeng YX, Chou JB, Rinnerbauer V, Shen Y, Kim SG, Joannopoulos JD, Soljacic M, Celanović I.

Opt Express. 2014 Sep 8;22(18):21711-8. doi: 10.1364/OE.22.021711.

PMID:
25321547
3.

Enabling ideal selective solar absorption with 2D metallic dielectric photonic crystals.

Chou JB, Yeng YX, Lee YE, Lenert A, Rinnerbauer V, Celanovic I, Soljačić M, Fang NX, Wang EN, Kim SG.

Adv Mater. 2014 Dec 17;26(47):8041-5. doi: 10.1002/adma.201403302. Epub 2014 Sep 16.

PMID:
25228299
4.

Efficient multiband absorber based on one-dimensional periodic metal-dielectric photonic crystal with a reflective substrate.

Wang W, Cui Y, He Y, Hao Y, Lin Y, Tian X, Ji T, He S.

Opt Lett. 2014 Jan 15;39(2):331-4. doi: 10.1364/OL.39.000331.

PMID:
24562139
5.

Design of wide-angle solar-selective absorbers using aperiodic metal-dielectric stacks.

Sergeant NP, Pincon O, Agrawal M, Peumans P.

Opt Express. 2009 Dec 7;17(25):22800-12. doi: 10.1364/OE.17.022800.

PMID:
20052206
6.

Superlattice photonic crystal as broadband solar absorber for high temperature operation.

Rinnerbauer V, Shen Y, Joannopoulos JD, Soljačić M, Schäffler F, Celanovic I.

Opt Express. 2014 Dec 15;22 Suppl 7:A1895-906. doi: 10.1364/OE.22.0A1895.

PMID:
25607503
7.

Dielectric-based subwavelength metallic meanders for wide-angle band absorbers.

Shen S, Qiao W, Ye Y, Zhou Y, Chen L.

Opt Express. 2015 Jan 26;23(2):963-70. doi: 10.1364/OE.23.000963.

PMID:
25835855
8.

High performance solar-selective absorbers using coated sub-wavelength gratings.

Sergeant NP, Agrawal M, Peumans P.

Opt Express. 2010 Mar 15;18(6):5525-40. doi: 10.1364/OE.18.005525.

PMID:
20389569
9.

Efficient low-temperature thermophotovoltaic emitters from metallic photonic crystals.

Nagpal P, Han SE, Stein A, Norris DJ.

Nano Lett. 2008 Oct;8(10):3238-43. doi: 10.1021/nl801571z. Epub 2008 Sep 10.

PMID:
18781817
10.

Design and optimization of one-dimensional photonic crystals for thermophotovoltaic applications.

Celanovic I, O'Sullivan F, Ilak M, Kassakian J, Perreault D.

Opt Lett. 2004 Apr 15;29(8):863-5.

PMID:
15119403
11.

Tailoring photonic metamaterial resonances for thermal radiation.

Bermel P, Ghebrebrhan M, Harradon M, Yeng YX, Celanovic I, Joannopoulos JD, Soljacic M.

Nanoscale Res Lett. 2011 Oct 6;6(1):549. doi: 10.1186/1556-276X-6-549.

12.

A nanophotonic solar thermophotovoltaic device.

Lenert A, Bierman DM, Nam Y, Chan WR, Celanović I, Soljačić M, Wang EN.

Nat Nanotechnol. 2014 Feb;9(2):126-30. doi: 10.1038/nnano.2013.286. Epub 2014 Jan 19.

PMID:
24441985
13.

Radiative decay engineering 7: Tamm state-coupled emission using a hybrid plasmonic-photonic structure.

Badugu R, Descrovi E, Lakowicz JR.

Anal Biochem. 2014 Jan 15;445:1-13. doi: 10.1016/j.ab.2013.10.009. Epub 2013 Oct 14.

14.

Three-dimensional self-assembled photonic crystals with high temperature stability for thermal emission modification.

Arpin KA, Losego MD, Cloud AN, Ning H, Mallek J, Sergeant NP, Zhu L, Yu Z, Kalanyan B, Parsons GN, Girolami GS, Abelson JR, Fan S, Braun PV.

Nat Commun. 2013;4:2630. doi: 10.1038/ncomms3630.

PMID:
24129680
15.

Photonic crystal enhanced silicon cell based thermophotovoltaic systems.

Yeng YX, Chan WR, Rinnerbauer V, Stelmakh V, Senkevich JJ, Joannopoulos JD, Soljacic M, Čelanović I.

Opt Express. 2015 Feb 9;23(3):A157-68. doi: 10.1364/OE.23.00A157.

PMID:
25836245
16.

Finite element method analysis of band gap and transmission of two-dimensional metallic photonic crystals at terahertz frequencies.

Degirmenci E, Landais P.

Appl Opt. 2013 Oct 20;52(30):7367-75. doi: 10.1364/AO.52.007367.

PMID:
24216592
17.

Wide-angle polarization independent infrared broadband absorbers based on metallic multi-sized disk arrays.

Cheng CW, Abbas MN, Chiu CW, Lai KT, Shih MH, Chang YC.

Opt Express. 2012 Apr 23;20(9):10376-81. doi: 10.1364/OE.20.010376.

PMID:
22535127
18.

Honeycomb-lattice plasmonic absorbers at NIR: anomalous high-order resonance.

Chen Y, Dai J, Yan M, Qiu M.

Opt Express. 2013 Sep 9;21(18):20873-9. doi: 10.1364/OE.21.020873.

PMID:
24103960
19.
20.

Broadband polarization-independent resonant light absorption using ultrathin plasmonic super absorbers.

Aydin K, Ferry VE, Briggs RM, Atwater HA.

Nat Commun. 2011 Nov 1;2:517. doi: 10.1038/ncomms1528.

PMID:
22044996
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