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Items: 1 to 20 of 82

1.

Confocal microscopy with an increased detection aperture: type-B 4Pi confocal microscopy.

Hell SW, Stelzer EH, Lindek S, Cremer C.

Opt Lett. 1994 Feb 1;19(3):222. No abstract available.

PMID:
19829598
2.

4Pi microscopy of type A with 1-photon excitation in biological fluorescence imaging.

Lang M, Müller T, Engelhardt J, Hell SW.

Opt Express. 2007 Mar 5;15(5):2459-67.

PMID:
19532483
3.

4Pi-confocal microscopy of live cells.

Bahlmann K, Jakobs S, Hell SW.

Ultramicroscopy. 2001 Apr;87(3):155-64.

PMID:
11330502
4.
5.

Polarization effects in 4Pi confocal microscopy studied with water-immersion lenses.

Bahlmann K, Hell SW.

Appl Opt. 2000 Apr 1;39(10):1652-8.

PMID:
18345065
6.

4Pi confocal microscopy with alternate interference.

Hell SW, Nagorni M.

Opt Lett. 1998 Oct 15;23(20):1567-9.

PMID:
18091846
7.

Dual-color 4Pi-confocal microscopy with 3D-resolution in the 100 nm range.

Kano H, Jakobs S, Nagorni M, Hell SW.

Ultramicroscopy. 2001 Feb;90(2-3):207-13.

PMID:
11942638
8.

Axial resolution enhancement by 4Pi confocal fluorescence microscopy with two-photon excitation.

Glaschick S, Röcker C, Deuschle K, Wiedenmann J, Oswald F, Mailänder V, Nienhaus GU.

J Biol Phys. 2007 Dec;33(5-6):433-43. doi: 10.1007/s10867-008-9084-1. Epub 2008 Jun 19.

9.

Optical transfer functions of 4Pi confocal microscopes: theory and experiment.

Schrader M, Kozubek M, Hell SW, Wilson T.

Opt Lett. 1997 Apr 1;22(7):436-8.

PMID:
18183226
10.

Image formation and data acquisition in a stage scanning 4Pi confocal fluorescence microscope.

Soini JT, Schrader M, Hänninen PE, Hell SW.

Appl Opt. 1997 Dec 1;36(34):8929-34.

PMID:
18264445
11.

Multiple-objective microscopy with three-dimensional resolution near 100 nm and a long working distance.

Haeberlé O, Xu C, Dieterlen A, Jacquey S.

Opt Lett. 2001 Nov 1;26(21):1684-6.

PMID:
18049699
12.

Comparison of I5M and 4Pi-microscopy.

Bewersdorf J, Schmidt R, Hell SW.

J Microsc. 2006 May;222(Pt 2):105-17.

13.

Sidelobe decline in single-photon 4Pi microscopy by Toraldo rings.

Martínez-Corral M, Caballero MT, Pons A, Andrés P.

Micron. 2003;34(6-7):319-25.

PMID:
12932776
14.

Axial apodization in 4Pi-confocal microscopy by annular binary filters.

Martińez-Corral M, Pons A, Caballero MT.

J Opt Soc Am A Opt Image Sci Vis. 2002 Aug;19(8):1532-6.

PMID:
12152693
15.

Correlation of 4Pi and electron microscopy to study transport through single Golgi stacks in living cells with super resolution.

Perinetti G, Müller T, Spaar A, Polishchuk R, Luini A, Egner A.

Traffic. 2009 Apr;10(4):379-91. doi: 10.1111/j.1600-0854.2009.00875.x.

16.

Automatic deconvolution in 4Pi-microscopy with variable phase.

Vicidomini G, Schmidt R, Egner A, Hell S, Schönle A.

Opt Express. 2010 May 10;18(10):10154-67. doi: 10.1364/OE.18.010154.

PMID:
20588870
17.

4Pi spectral self-interference microscopy.

Davis BJ, Dogan M, Goldberg BB, Karl WC, Unlü MS, Swan AK.

J Opt Soc Am A Opt Image Sci Vis. 2007 Dec;24(12):3762-71.

PMID:
18059929
18.

Two-color two-photon 4Pi fluorescence microscopy.

Chen J, Midorikawa K.

Opt Lett. 2004 Jun 15;29(12):1354-6.

PMID:
15233433
19.
20.

4Pi microscopy reveals an impaired three-dimensional mitochondrial network of pancreatic islet beta-cells, an experimental model of type-2 diabetes.

Dlasková A, Spacek T, Santorová J, Plecitá-Hlavatá L, Berková Z, Saudek F, Lessard M, Bewersdorf J, Jezek P.

Biochim Biophys Acta. 2010 Jun-Jul;1797(6-7):1327-41. doi: 10.1016/j.bbabio.2010.02.003. Epub 2010 Feb 6.

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