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Optical bound states in the continuum in subwavelength gratings made of an epitaxial van der Waals material

Version 1.0

Pruszyńska-Karbownik, Emilia; Fąs, Tomasz; Brańko, Katarzyna; Yavorskiy, Dmitriy; Stonio, Bartłomiej; Bożek, Rafał; Karbownik, Piotr; Wróbel, Jerzy; Czyszanowski, Tomasz; Stefaniuk, Tomasz; Pacuski, Wojciech; Suffczyński, Jan, 2026, "Optical bound states in the continuum in subwavelength gratings made of an epitaxial van der Waals material", https://doi.org/10.58132/CLRDTH, Dane Badawcze UW, V1

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Description

Data for article "Optical Bound States in the Continuum in Subwavelength Gratings Made of an Epitaxial van der Waals Material" published in ACS Nano.

The dataset contains data used for plotting the figures in the paper. The data are results of numerical calculations, measurements and literature research.

Fig. 1 Real n and imaginary k part of refractive indices for light at the wavelength of λ = 1100 nm for several materials and numerically calculated minimal height of a subwavelength grating, which can host a bound state in the continuum (BIC), lying on a sapphire substrate as a function of the refractive index n of the grating material for a grating with stripes four times wider than the gaps (fill factor F = 0.8). Files:

  • nreffs_literature_1100nm.dat
  •  BIC_hmin_AlO_1e12_F08.txt 

Fig. 2 Numerically calculated complex values of the wavelength of the antisymmetric mode of the MoSe2 subwavelength grating in the space of the grating period and height for the selected fill factor F = 0.8 and with the experimentally determined net absorption of the MoSe2 layer. File:

  • F08_abs.hdf5

Fig. 3 Real and imaginary part of the in-plane (ordinary) and the out-of-plane (extra-ordinary) refractive index of a 42 nm MoSe2 MBE-grown layer determined by ellipsometry measurements as a function of wavelength, unaveraged Raman scattering spectra of “as-grown” MoSe2 layer and AFM images of MoSe2 layer surfaces and subwavelength grating. Files:

  • Opt_Const_of_MoSe2.txt
  • d10_raman_asgrown.h5
  • UW2154_ds_0_00005_fig.spm
  • UW2154_ds_poler_0_00000_fig.spm
  • R0A111_0_00000_fig.spm

Fig. 4 Angle-resolved maps of reflectivity from the MoSe2-based subwavelength grating for TE (i.e., parallel to the stripes) and TM polarization (i.e., perpendicular to the stripes). Files:

  • Grating_Emi_MoSe2_saph_h0.04_hsaph0.01_L0.5_F0.79_top_kat_D240315.hdf5
  • Figure_4b.dat
  • Figure_4d.dat

Fig. 5 Polarization vortex of the antisymmetric mode around the BIC hosted by the MoSe2-based grating in the minimum of its dispersion at λ = 1100 nm. File:

  • TE10_worteks_teo.hdf5

Fig. 6 Results of third-harmonic generation measurements. The intensity of THG generated under 27-degree excitation, the wavelength dependence of the enhancement factor at a 27-degree angle, the angular dependence of the maximum observed THG enhancement factor. Files:

  • Fig6a.txt
  • Fig6b.txt
  • Fig6c.txt
  • Fig6d.txt

Fig. S1 Real and imaginary part of the in-plane (ordinary) and the out-of-plane (extra-ordinary) refractive index of a sapphire substrate determined by ellipsometry measurements as a function of wavelength. File:

  • Opt_Const_of_Al2O3.txt
Subject
Physics
Keyword

subwavelength gratings, van der Waals material, optical bound states, bound states in the continuum, molybdenum diselenide

Related Publication

Emilia Pruszyńska-Karbownik, Tomasz Fąs, Katarzyna Brańko, Dmitriy Yavorskiy, Bartłomiej Stonio, Rafał Bożek, Piotr Karbownik, Jerzy Wróbel, Tomasz Czyszanowski, Tomasz Stefaniuk, Wojciech Pacuski, Jan Suffczyński "Optical Bound States in the Continuum in Subwavelength Gratings Made of an Epitaxial van der Waals Material", ACS Nano 2026 20 (9), 7426-7437. https://doi.org/10.1021/acsnano.5c12870 https://doi.org/10.1021/acsnano.5c12870 doi: 10.1021/acsnano.5c12870

CC BY - Creative Commons Attribution 4.0 CC BY - Creative Commons Attribution 4.0

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nreffs_literature_1100nm.dat
Fixed Field Text Data - 2.7 KB - Mar 18, 2026 - 0 Downloads
MD5: de23bdaff464f56a1aade1d9922ac90f
License: CC BY - Creative Commons Attribution 4.0
Data for Fig. 1(a) Real n and imaginary k part of refractive indices for light at the wavelength of λ = 1100 nm for several materials. Columns in the file are separated by tabs. 1 column: name of a material; 2 column: real part of refractive index; 3 column: imaginary part of refractive index; 4 column: citation tag of the source of the refractive index ; 5 column: citation tag for grating made of the material. False if not yet reported; 6 column: is the material a transistion metal dichalcogenide (True/False); Citation tags are in format AutorYYYYJournal. The file is an ASCII text file openable in any text or spreadsheet editor.
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BIC_hmin_AlO_1e12_F08.txt
Plain Text - 167 B - Mar 18, 2026 - 0 Downloads
MD5: eb212b2cf908f559455a6fd63f5249ed
License: CC BY - Creative Commons Attribution 4.0
Data for Fig. 1(b). Numerically calculated minimal height of a subwavelength grating, which can host a bound state in the continuum (BIC), lying on a sapphire substrate as a function of the refractive index n of the grating material for a grating with stripes four times wider than the gaps (fill factor F = 0.8). Columns are separated by a space. The file is an ASCII text file openable in any text or spreadsheet editor.
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F08_abs.hdf5
Unknown - 38.5 MB - Mar 18, 2026 - 0 Downloads
MD5: 569c03cbe24d046ea80dabe28200e13a
License: CC BY - Creative Commons Attribution 4.0
Data for Fig. 2. Numerically calculated complex values of the wavelength of the antisymmetric mode of the MoSe2 subwavelength grating in the space of the grating period and height for the selected fill factor F = 0.8 and with the experimentally determined net absorption of the MoSe2 layer. Dataset 'data' in the hdf5 file contains a table with columns: 'L' - period of the grating in microns, 'h' - height of the grating in microns, 'F' - fill factor of the grating, 'lam' - complex wavelength in nm. The file is created using Python and can be opened by using function 'read_hdf' in Python library 'pandas' or by any HDF5 viewer.
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Opt_Const_of_MoSe2.txt
Plain Text - 52.2 KB - Mar 18, 2026 - 0 Downloads
MD5: 5db94a0496ad296420e564e3f437088a
License: CC BY - Creative Commons Attribution 4.0
Data for Fig. 3 (A) Real and imaginary part of the in-plane (ordinary) and the out-of-plane (extra-ordinary) refractive index of a 42 nm MoSe2 MBE-grown layer determined by ellipsometry measurements as a function of wavelength. The columns are separated by a tabulator. The file is an ASCII text file openable in any text or spreadsheet editor.
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d11_raman_polished.h5
Unknown - 1.3 MB - Mar 18, 2026 - 0 Downloads
MD5: 53b6a3b80f502338378c3c81f8a7b6af
License: CC BY - Creative Commons Attribution 4.0
Data for Fig. 3(b) unaveraged Raman scattering spectra of polished MoSe2 layer at points distributed in the area of 1 mm2 on each sample. HDF file contains datasets: 'x' - wavelength, 'z' intensity, 'data_full' - parameter of used equipment. The file is created using Python and can be opened by using Python library 'h5py' or by any HDF5 viewer.
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d10_raman_asgrown.h5
Unknown - 1.1 MB - Mar 18, 2026 - 0 Downloads
MD5: 301303e6bb00f7b13c85acf3a7aab7ca
License: CC BY - Creative Commons Attribution 4.0
Data for Fig. 3(b) unaveraged Raman scattering spectra of “as-grown” MoSe2 layer at points distributed in the area of 1 mm2 on each sample. HDF file contains datasets: 'x' - wavelength, 'z' intensity, 'data_full' - parameters of used equipment. The file is created using Python and can be opened by using Python library 'h5py' or by any HDF5 viewer.
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UW2154_ds_0_00005_fig.spm
Unknown - 2.2 MB - Mar 18, 2026 - 0 Downloads
MD5: 080c0558d3d4ddce50c67d08d0c26ca3
License: CC BY - Creative Commons Attribution 4.0
Data for Fig. 3 (c) SPM (scanning probe microscopy) file of AFM image of as-grown MoSe2 layer surface. The file can be opened by Gwyddion.
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UW2154_ds_poler_0_00000_fig.spm
Unknown - 2.3 MB - Mar 18, 2026 - 0 Downloads
MD5: 569ee7df29bf93fb82456fda2497b2ea
License: CC BY - Creative Commons Attribution 4.0
Data for Fig. 3 (d) SPM (scanning probe microscopy) file of AFM image of MoSe2 surface after polishing The file can be opened by Gwyddion.
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R0A111_0_00000_fig.spm
Unknown - 2.2 MB - Mar 18, 2026 - 0 Downloads
MD5: 56c0699e874111e798d9f5b70ddf0230
License: CC BY - Creative Commons Attribution 4.0
Data for Fig. 3 (e) SPM (scanning probe microscopy) file of AFM image of excerpt of the MoSe2-based subwavelength grating with the height h = 42 nm, period L = 500 nm, and fill factor F = 0.79. The file can be opened by Gwyddion.
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Grating_Emi_MoSe2_saph_h0.04_hsaph0.01_L0.5_F0.79_top_kat_D240315.hdf5
Unknown - 23.0 MB - Mar 18, 2026 - 0 Downloads
MD5: dffbdeb9e4b5c51613ab93f5776d5cad
License: CC BY - Creative Commons Attribution 4.0
Data for Fig. 4 (a) and (c). Angle-resolved numerically calculated maps of reflectivity from the MoSe2-based subwavelength grating for TE (i.e., parallel to the stripes) and TM polarization (i.e., perpendicular to the stripes). HDF5 file with datasets: "F" - fill factor of the grating, "L" - period of the grating in microns, "h1" - depth of etching in MoSe2, "h2" - depth of etching in sapphire, "kierunek" - direction of illuminating, "data" - table with the results. Columns in the data table are "lam" - wavelegth in nm, "alfa" - angle in degrees, "ktran" - wavevector, "Rx" - reflection in TE polarization, "Ry" - reflection in TM polarization. The file is created using Python and can be opened by using function 'read_hdf' in Python library 'pandas' or by any HDF5 viewer.
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