- G. P. Acuna, M. Bucher, I. Stein, C. Steinhauer, A. Kuzyk,
P. Holzmeister, R. Schreiber, A. Moroz, F. D. Stefani,
T. Liedl, F. Simmel, and P. Tinnefeld,
*Distance dependence of single-fluorophore quenching by gold nanoparticles studied on DNA origami*,

ACS Nano**6**(4), 3189-3195 (2012) [pdf] -**235**citations - A. Moroz,
*Three-dimensional complete photonic bandgap structures in the visible,*

Phys. Rev. Lett.**83**, 5274-5277 (1999) -**223**citations -
V. Yannopapas and A. Moroz,
*Negative refractive index metamaterials from inherently non-magnetic materials for deep infrared to terahertz frequency ranges*,

J. Phys.: Condens. Matter.**17**(25), 3717-3734 (2005) (minor erratum) [pdf] -**183**citations

(accompanying F77 code EFFE2P; supplementary information) - K. P. Velikov, A. Moroz, and A. van Blaaderen,
*Photonic crystals of core-shell colloidal particles*,

Appl. Phys. Lett.**80**, 49-51 (2002) [pdf] -**136**citations - A. Moroz,
*Metallo-dielectric diamond and zinc-blende photonic structures*,

Phys. Rev. B**66**, 115109 (2002) [cond-mat/0209188] [pdf] [supplementary information] -**130**citations - A. Moroz,
*Depolarization field of spheroidal particles,*

J. Opt. Soc. Am. B**26**(3), 517-527 (2009) [pdf] -**129**citations

Belonged to the**most-downloaded**publications of J. Opt. Soc. Am. B in the field of plasmonics.

(Accompanying F77 code sphrd.f to determine extinction efficiency in various long-wavelength approximations discussed in the article.

See here for on-line supplementary material. See also my worksheet involving some intermediary calculations.) - A. Moroz and C. Sommers,
*Photonic band gaps of three-dimensional face-centered cubic lattices,*

J. Phys.: Condens. Matter**11**, 997-1008 (1999) [physics/9807057] [story behind this article] -**119**citations - A. Moroz,
*Electron mean-free path in a spherical shell geometry,*

J. Phys. Chem. C**112**(29), 10641-10652 (2008) -**76**citations

(The article has been supplemented with a detailed Electronic Supporting Information. See also an accompanying F77 code fsc.f to calculate the mean-free path for various model cases discussed in the article.) - A. Moroz,
*Photonic crystals of coated metallic spheres,*

Europhys. Lett.**50**, 466-472 (2000) [cond-mat/0003518] [pdf] -**74**citations - A. Moroz,
*A recursive transfer-matrix solution for a dipole radiating inside and outside a stratified sphere*,

Ann. Phys. (NY)**315**(2), 352-418 (2005) (published online on 7th October 2004) [story behind this article] -**73**citations

(accompanying F77 code CHEW and limited MS Windows executable) - A. Moroz,
*Density-of-states calculation and multiple scattering theory for photons,*

Phys. Rev. B**51**, 2068-2081 (1995) [cond-mat/9404049] -**70**citations - A. Tip, A. Moroz, and J.-M. Combes,
*Band structure of absorptive photonic crystals,*

J. Phys. A: Math. Gen.**33**, 6223-6252 (2000) [mp-arc/00-181] -**67**citations -
M. J. A. de Dood, L. H. Slooff, A. Moroz, A. Polman, and A. van Blaaderen,
*Local optical density of states in SiO2 spherical microcavities: theory and experiment*,

Phys. Rev. A**64**, 033807 (2001) [pdf] -**57**citations - H. van der Lem and A. Moroz,
*Towards two-dimensional complete photonic-bandgap structures below infrared wavelengths,*

J. Opt. A: Pure Appl. Opt.**2**, 395-399 (2000) [pdf] -**53**citations

[The first article to emphasize the importance of filling the pores of a purely dielectric 2D air hole photonic crystal with silver, resulting in a 2D lattice of metallic wires embedded in a dielectric matrix, in order to obtain an elusive**complete photonic bandgap**(i.e. common for both polarizations and for all propagation directions) in the**visible**] -
V. Poborchii, T. Tada, T. Kanayama, and A. Moroz,
*Silver-coated silicon-pillar photonic crystals: enhancement of a photonic band gap*,

Appl. Phys. Lett.**82**, 508-510 (2003) [pdf] -**50**citations

[try MS Windows executable rta1in2k.exe] - A. Moroz,
*Non-radiative decay of a dipole emitter close to a metallic nanoparticle: Importance of higher-order multipole contributions*,

Opt. Commun.**283**(10), 2277-2287 (2010). [arXiv:0909.4878] -**42**citations

(Shows importance of the size correction to a metal dielectric function in describing the non-radiative rates near the dipolar surface plasmon resonance. Accompanying F77 code CRMNT and limited MS Windows executable.) - J. J. Penninkhof, A. Moroz, A. Polman, and A. van Blaaderen,
*Optical properties of spherical and oblate spheroidal gold shell colloids,*

J. Phys. Chem. C**112**(11), 4146-4150 (2008) [story behind this article] -**40**citations

(Accompanying F77 code sphere.f; read compilation and further instructions here.) - A. van der Horst, P. D. J. van Oostrum, A. Moroz, A. van Blaaderen, and M. Dogterom,
*High-refractive index particles trapped in dynamic arrays of dual-beam optical tweezers,*

Appl. Opt.**47**(17), 3196-3202 (2008). [pdf] -**39**citations

(See accompanying F77 code opttrap.f; for compilation and further instructions see here.) - J. J. Penninkhof, L. A. Sweatlock, A. Moroz, H. A. Atwater,
A. van Blaaderen, and A. Polman,
*Optical cavity modes in gold shell colloids,*

J. Appl. Phys.**103**(12), 123105 (2008) -**39**citations

(Accompanying F77 code sphere.f; read compilation and further instructions here. Download cavity.ppt to play a movie of cavity modes.) - H. van der Lem, A. Moroz, and A. Tip,
*Band structure of absorptive two-dimensional photonic crystals*,

J. Opt. Soc. Am. B**20**(6), 1334-1341 (2003) [pdf]. [pdf] -**39**citations - M. J. A. de Dood, E. Snoeks, A. Moroz, and A. Polman,
*Design and optimization of 2D photonic crystal waveguides based on silicon*,

IEE Opt. Quant. Elec.**34**(1-3), 145-159 (2002). [pdf] -**38**citations - A. Moroz,
*Quasi-periodic Green's functions of the Helmholtz and Laplace equations,*

J. Phys. A: Math. Gen.**39**, 11247-11282 (2006). [erratum] [math-ph/0602021] [supplementary information] -**36**citations

[Provides a unified treatment of all the subperiodic cases (i.e.**1D**and**2D**periodicity in**3D**, together with**1D**periodicity in**2D**) within the spirit of**Kambe**'s approach and shows how to derive all the results for the separatein a single go.]__lattice sums__ - A. Moroz,
*Exponentially convergent lattice sums,*

Opt. Lett.**26**(15), 1119-1121 (2001). [pdf] -**35**citations

(Accompanying F77 code OLA; supplementary information) - A. Moroz,
*Minima and maxima of the local density of states for one-dimensional periodic systems,*

Europhys. Lett.**46**, 419-424 (1999) -**35**citations

(see also accompanying F77 code) - A. Moroz,
*Spectroscopic properties of a two-level atom interacting with a complex spherical nanoshell*,

Chem. Phys.**317**(1), 1-15 (2005). (published online on 9th August 2005) [quant-ph/0412094] -**34**citations

(see its on-line Appendix A for a MS Windows executable; source F77 code CHEWFS) - M. J. A. de Dood, L. H. Slooff, A. Moroz, A. Polman, and A. van Blaaderen,
*Modified spontaneous emission in erbium-doped SiO2 spherical colloids*,

Appl. Phys. Lett.**79**, 3585-3587 (2001). [pdf] -**34**citations

(Shows importance of the**concentration quenching**for a reliable description of spontaneous emission.) - A. Moroz,
*On the spectrum of a class of quantum models*,

Europhys. Lett.**100**, 60010 (2012). [arxiv:1209.3265 [quant-ph]] -**31**citations - A. Moroz,
*On solvability and integrability of the Rabi model*,

Ann. Phys. (N.Y.)**338**, 319-340 (2013). -**30**citations [cited**5x**as arXiv:1302.2565] [arXiv:1302.2565 [quant-ph]] -
A. Moroz,
*Inward and outward integral equations and the KKR method for photons,*

J. Phys.: Condens. Matter**6**, 171-182 (1994) [cond-mat/9310040] -**29**citations

Full list of my scientific publications | My personal citation and publication statistics in Scopus