This readme.txt file was generated on 20240709 by Maya Ramamurthy ------------------- GENERAL INFORMATION ------------------- Suggested citation for dataset: Ramamurthy, Maya; Cote, Bryan M.; Ferry, Vivian E.. (2024). Data for Chiral Optical Properties of Metasurfaces Comprised of Chiral Media: Effects of Geometric and Material Chirality. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/8FZW-EJ78 1. Title of Dataset: Data for "Chiral Optical Properties of Metasurfaces Comprised of Chiral Media: Effects of Geometric and Material Chirality" 2. Author Information: Principal Investigator Contact Information Name: Vivian E. Ferry Institution: Department of Chemical Engineering and Materials Science, University of Minnesota - Twin Cities Address: 421 Washington Ave SE, Minneapolis, MN 55455 USA Email: veferry@umn.edu ORCID: 0000-0002-9676-6056 Associate or Co-investigator Contact Information Name: Maya Ramamurthy Institution: Department of Chemical Engineering and Materials Science, University of Minnesota - Twin Cities Address: 421 Washington Ave SE, Minneapolis, MN 55455 USA Email: mayaram@umn.edu ORCID: 0000-0003-2882-9024 Associate or Co-investigator Contact Information Name: Bryan M. Cote Institution: Department of Chemical Engineering and Materials Science, University of Minnesota - Twin Cities Address: 421 Washington Ave SE, Minneapolis, MN 55455 USA Email: cote0058@umn.edu ORCID: 0000-0002-6755-7415 3. Date published or finalized for release: 20240703 4. Date of data collection (single date, range, approximate date): 20220901 - 20240703 5. Geographic location of data collection (where was data collected?): Department of Chemical Engineering and Materials Science, University of Minnesota - Twin Cities, 421 Washington Ave SE, Minneapolis, MN 55455 USA 6. Information about funding sources that supported the collection of the data: This work was supported by the National Science Foundation under Award 2102835. 7. Overview of the data (abstract): Data includes the processed COMSOL simulation results needed to recreate the figures in "Chiral Optical Properties of Metasurfaces Comprised of Chiral Media: Effects of Geometric and Material Chirality". Here, we investigate the role of the meta-atom geometry, optical resonances, and chirality of the constituent medium on the optical chirality enhancement, circular dichroism (CD), g-factor, and relative transmission of LCP versus RCP light (∆T) in metasurfaces comprised of chiral material. We find that overlapping Mie-like resonances in nanodisk arrays lead to 6-fold CD enhancement compared to a uniform film. Our analysis also suggests that making the medium chiral does not necessarily increase CD or g-factor; enhancement in the CD and optical chirality depend on the magnitude of the Pasteur parameter as well as its real and imaginary components. As a demonstration of how geometric and material chirality can be combined to enhance chiroptical properties, we design a geometrically chiral meta-atom out of chiral media and observe over 9-fold enhancement in both CD and g-factor compared to a metasurface comprised of achiral material. This work systematically investigates different approaches to tailoring a chiral response from nanostructured arrays and provides design rules that can be broadly applied to metastructures comprised of chiral media. The data files include transmission, reflection, and absorption data, electric and magnetic field data, circular dichroism (CD), g-Factor, Kuhn's dissymmetry factor, phase, and local optical chirality data for variety of different chiral disk and chiral film materials and geometries. -------------------------- SHARING/ACCESS INFORMATION -------------------------- 1. Licenses/restrictions placed on the data: CC BY 4.0 https://creativecommons.org/licenses/by/4.0/ 2. Links to publications that cite or use the data: Ramamurthy, Maya; Cote, Bryan M; Ferry, Vivian E. (2024). Chiral Optical Properties of Metasurfaces Comprised of Chiral Media: Effects of Geometric and Material Chirality UNDER REVIEW 3. Was data derived from another source? If yes, list source(s): None 4. Terms of Use: Data Repository for the U of Minnesota (DRUM) By using these files, users agree to the Terms of Use. https://conservancy.umn.edu/pages/policies/#drum-terms-of-use --------------------- DATA & FILE OVERVIEW --------------------- 1. File List A. Filename: Figure_2_Data.csv Short description: a .csv file containing the data required to recreate the transmission plot, reflection plot, and electric and magnetic field profiles for Figure 2. The MATLAB function 'imagesc' is used to plot the transposed variables (for example: imagesc(Wvlgth,D,Tave_D275.')). This is followed by the MATLAB function 'set' to reverse the direction of the y-axis (example: set(gca,'ydir','normal')). B. Filename: Figure_3_Data.csv Short description: a .csv file containing the data required to recreate the CD enhancement, g-Factor enhancement and optical chirality enhancement of a disk compared to a uniform film for Figure 3. C. Filename: Figure_4_Data.zip Short description: a .zip file containing 3 .csv files required to recreate the local Kuhn’s dissymmetry factor enhancement for Figure 4. The first file contains 4 variables, and the remaining two .csv files contain the remaining two variables. The Matlab function imagesc(Y_D468,Z_D468,g_enhance_D468) and imagesc(Y_D300,Z_D300,g_enhance_D300) are used to plot the data. D. Filename: Figure_5_Data.csv Short description: a .csv file containing the data required to recreate the CD, transmission, absorption, and field intensity plots for disks with various Pasteur parameters for Figure 5. E. Filename: Figure_6_Data.csv Short description: a .csv file containing the data required to recreate the Pasteur parameter and CD plots for a Lorentzian disk and film for Figure 6. F. Filename: Figure_7_Data.csv Short description: a .csv file containing the data required to recreate the CD plot for Figure 7. G. Filename: Figure_S1_Data.csv Short description: a .csv file containing the data required to recreate the Phase lag plot for Figure S1. H. Filename: Figure_S2_Data.csv Short description: a .csv file containing the data required to recreate the field profiles and phase lag plot for Figure S2. I. Filename: Figure_S3_Data.csv Short description: a .csv file containing the data required to recreate the normalized local density of chirality for Figure S3. J. Filename: Figure_S4_Data.zip Short description: a .zip file containing three .csv files required to recreate the normalized local density of chirality for Figure S4. The first file contains 5 variables and the remaining two .csv files contain the two remaining variables (C_D468 and C_D325). The Matlab function imagesc(Y,Z,C_D468) and imagesc(Y,Z,C_D300) are used to plot the data. K. Filename: Figure_S5_Data.csv Short description: a .csv file containing the data required to recreate the circular dichroism and enhancement in [-log_10⁡(T_LCP)- log10(T_RCP)] for Figure S5. L. Filename: Figure_S6_Data.csv Short description: a .csv file containing the data required to recreate the delta T and circular dichroism plots for various Pasteur parameters for Figure S6. M. Filename: Figure_S7_Data.csv Short description: a .csv file containing the data required to recreate the average optical chirality plot for Figure S7. N. Filename: Figure_S8_Data.csv Short description: a .csv file containing the data required to recreate the electric and magnetic field intensity enhancements for Figure S8. O. Filename: Figure_S9_Data.csv Short description: a .csv file containing the data required to recreate the g-Factor and circular dichroism plots for Figure S9. 2. Relationship between files: The data are structured by figure. -------------------------- METHODOLOGICAL INFORMATION -------------------------- 1. Description of methods used for collection/generation of data: The data was collected using COMSOL Multiphysics version 5.4. 2. Methods for processing the data: The variables were exported to a .csv file. All of the data shown here was processed using MATLAB R2021a. 3. Instrument- or software-specific information needed to interpret the data: None 4. Standards and calibration information, if appropriate: None 5. Environmental/experimental conditions: None 6. Describe any quality-assurance procedures performed on the data: None 7. People involved with sample collection, processing, analysis and/or submission: Maya Ramamurthy, Bryan M. Cote, Vivian E. Ferry ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_2_Data.csv ----------------------------------------- 1. Number of variables: 32 2. Number of cases/rows: 7128 3. Missing data codes: None 4. Variable List A. Name: D Description: the disk diameters in nanometers B. Name: Wvlgth Description: Wavelength of light in nanometers C. Name: Tave_D275 Description: Average transmission of circularly polarized light for the 275 nm disk diameter D. Name: Tave_D300 Description: Average transmission of circularly polarized light for the 300 nm disk diameter E. Name: Tave_D325 Description: Average transmission of circularly polarized light for the 325 nm disk diameter F. Name: Tave_D350 Description: Average transmission of circularly polarized light for the 350 nm disk diameter G. Name: Tave_D375 Description: Average transmission of circularly polarized light for the 375 nm disk diameter H. Name: Tave_D400 Description: Average transmission of circularly polarized light for the 400 nm disk diameter I. Name: Tave_D425 Description: Average transmission of circularly polarized light for the 425 nm disk diameter J. Name: Tave_D450 Description: Average transmission of circularly polarized light for the 450 nm disk diameter K. Name: Tave_D475 Description: Average transmission of circularly polarized light for the 475 nm disk diameter L. Name: Tave_D500 Description: Average transmission of circularly polarized light for the 500 nm disk diameter M. Name: Tave_D525 Description: Average transmission of circularly polarized light for the 525 nm disk diameter N. Name: Tave_D550 Description: Average transmission of circularly polarized light for the 550 nm disk diameter O. Name: Tave_D575 Description: Average transmission of circularly polarized light for the 575 nm disk diameter P. Name: Tave_D600 Description: Average transmission of circularly polarized light for the 600 nm disk diameter Q. Name: Tave_D625 Description: Average transmission of circularly polarized light for the 625 nm disk diameter R. Name: Wvlgth_Ecenter_max Description: The wavelength that gives the maximum normalized electric field intensity in the center of the disk S. Name: Wvlgth_Hcenter_max Description: The wavelength that gives the maximum normalized magnetic field intensity in the center of the disk T. Name: Rave_D325 Description: Average reflection of circularly polarized light for the 325 nm disk diameter U. Name: Rave_Wvlgth Description: Wavelength in nanometers for reflection data for the 468 nm disk diameter V. Name: Rave_D468 Description: Average reflection of circularly polarized light for the 468 nm disk diameter W. Name: x_E_FieldProfile_xy Description: distance along the x direction in nanometers, for the normalized electric field intensity along the xy direction X. Name: y_E_FieldProfile_xy Description: distance along the y direction in nanometers, for the normalized electric field intensity along the xy direction Y. Name: E_FieldProfile_xy Description: Normalized field intensity for the electric field profile along the xy direction Z. Name: x_H_FieldProfile_xy Description: distance along the x direction in nanometers, for the normalized magnetic field intensity along the xy direction AA. Name: y_H_FieldProfile_xy Description: distance along the y direction in nanometers, for the normalized magnetic field intensity along the xy direction AB. Name: H_FieldProfile_xy Description: Normalized field intensity for the magnetic field profile along the xy direction AC. Name: y_E_FieldProfile_yz Description: distance along the y direction in nanometers, for the normalized electric field intensity along the yz direction AD. Name: z_E_FieldProfile_yz Description: distance along the z direction in nanometers, for the normalized electric field intensity along the yz direction AE. Name: E_FieldProfile_yz Description: Normalized field intensity for the electric field profile along the yz direction AF. Name: y_H_FieldProfile_yz Description: distance along the y direction in nanometers, for the normalized magnetic field intensity along the xy direction AG. Name: z_H_FieldProfile_yz Description: distance along the z direction in nanometers, for the normalized magnetic field intensity along the xy direction AH. Name: H_FieldProfile_yz Description: Normalized field intensity for the magnetic field profile along the yz direction ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_3_Data.csv ----------------------------------------- 1. Number of variables: 43 2. Number of cases/rows: 72 3. Missing data codes: None 4. Variable List A. Name: D Description: the disk diameters in nanometers B. Name: Wvlgth Description: Wavelength of light in nanometers C. Name: C_D275 Description: optical chirality field enhancement of the 275 nm disk normalized by that of a film made of the same material D. Name: C_D300 Description: optical chirality field enhancement of the 300 nm disk normalized by that of a film made of the same material E. Name: C_D325 Description: optical chirality field enhancement of the 325 nm disk normalized by that of a film made of the same material F. Name: C_D350 Description: optical chirality field enhancement of the 350 nm disk normalized by that of a film made of the same material G. Name: C_D375 Description: optical chirality field enhancement of the 375 nm disk normalized by that of a film made of the same material H. Name: C_D400 Description: optical chirality field enhancement of the 400 nm disk normalized by that of a film made of the same material I. Name: C_D425 Description: optical chirality field enhancement of the 425 nm disk normalized by that of a film made of the same material J. Name: C_D450 Description: optical chirality field enhancement of the 450 nm disk normalized by that of a film made of the same material K. Name: C_D475 Description: optical chirality field enhancement of the 475 nm disk normalized by that of a film made of the same material L. Name: C_D500 Description: optical chirality field enhancement of the 500 nm disk normalized by that of a film made of the same material M. Name: C_D525 Description: optical chirality field enhancement of the 525 nm disk normalized by that of a film made of the same material N. Name: C_D550 Description: optical chirality field enhancement of the 550 nm disk normalized by that of a film made of the same material O. Name: C_D575 Description: optical chirality field enhancement of the 575 nm disk normalized by that of a film made of the same material P. Name: C_D600 Description: optical chirality field enhancement of the 600 nm disk normalized by that of a film made of the same material Q. Name: C_D625 Description: optical chirality field enhancement of the 625 nm disk normalized by that of a film made of the same material R. Name: CD_D275 Description: circular dichroism enhancement of the 275 nm disk normalized by that of a film made of the same material S. Name: CD_D300 Description: circular dichroism enhancement of the 300 nm disk normalized by that of a film made of the same material T. Name: CD_D325 Description: circular dichroism enhancement of the 325 nm disk normalized by that of a film made of the same material U. Name: CD_D350 Description: circular dichroism enhancement of the 350 nm disk normalized by that of a film made of the same material V. Name: CD_D375 Description: circular dichroism enhancement of the 375 nm disk normalized by that of a film made of the same material W. Name: CD_D400 Description: circular dichroism enhancement of the 400 nm disk normalized by that of a film made of the same material X. Name: CD_D425 Description: circular dichroism enhancement of the 425 nm disk normalized by that of a film made of the same material Y. Name: CD_D450 Description: circular dichroism enhancement of the 450 nm disk normalized by that of a film made of the same material Z. Name: CD_D475 Description: circular dichroism enhancement of the 475 nm disk normalized by that of a film made of the same material AA. Name: CD_D500 Description: circular dichroism enhancement of the 500 nm disk normalized by that of a film made of the same material AB. Name: CD_D525 Description: circular dichroism enhancement of the 525 nm disk normalized by that of a film made of the same material AC. Name: CD_D550 Description: circular dichroism enhancement of the 550 nm disk normalized by that of a film made of the same material AD. Name: CD_D575 Description: circular dichroism enhancement of the 575 nm disk normalized by that of a film made of the same material AE. Name: CD_D600 Description: circular dichroism enhancement of the 600 nm disk normalized by that of a film made of the same material AF. Name: CD_D625 Description: circular dichroism enhancement of the 625 nm disk normalized by that of a film made of the same material AG. Name: g_D275 Description: g-Factor enhancement of the 275 nm disk normalized by that of a film made of the same material AH. Name: g_D300 Description: g-Factor enhancement of the 300 nm disk normalized by that of a film made of the same material AI. Name: g_D325 Description: g-Factor enhancement of the 325 nm disk normalized by that of a film made of the same material AJ. Name: g_D350 Description: g-Factorenhancement of the 350 nm disk normalized by that of a film made of the same material AK. Name: g_D375 Description: g-Factor enhancement of the 375 nm disk normalized by that of a film made of the same material AL. Name: g_D400 Description: g-Factor enhancement of the 400 nm disk normalized by that of a film made of the same material AM. Name: g_D425 Description: g-Factor enhancement of the 425 nm disk normalized by that of a film made of the same material AN. Name: g_D450 Description: g-Factor enhancement of the 450 nm disk normalized by that of a film made of the same material AO. Name: g_D475 Description: g-Factor enhancement of the 475 nm disk normalized by that of a film made of the same material AP. Name: g_D500 Description: g-Factor enhancement of the 500 nm disk normalized by that of a film made of the same material AQ. Name: g_D525 Description: g-Factor enhancement of the 525 nm disk normalized by that of a film made of the same material AR. Name: g_D550 Description: g-Factor enhancement of the 550 nm disk normalized by that of a film made of the same material AS. Name: g_D575 Description: g-Factor enhancement of the 575 nm disk normalized by that of a film made of the same material AT. Name: g_D600 Description: g-Factor enhancement of the 600 nm disk normalized by that of a film made of the same material AU. Name: g_D625 Description: g-Factor enhancement of the 625 nm disk normalized by that of a film made of the same material ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_4_Data.zip ----------------------------------------- 1. Number of variables: 6 2. Number of cases/rows: 555 3. Missing data codes: None 4. Variable List A. Name: Y_D468 Description: distance along the y direction in nanometers, for the 468 nm disk B. Name: Z_D468 Description: distance along the z direction in nanometers, for the 468 nm disk C. Name: Y_D300 Description: distance along the y direction in nanometers, for the 300 nm disk D. Name: Z_D300 Description: distance along the z direction in nanometers, for the 300 nm disk E. Name: g_enhance_D468 Description: Kuhn's dissymmetry factor for a 468 nm disk relative to a uniform film with the same properties F. Name: g_enhance_D300 Description: Kuhn's dissymmetry factor for a 300 nm disk relative to a uniform film with the same properties ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_5_Data.csv ----------------------------------------- 1. Number of variables: 26 2. Number of cases/rows: 102 3. Missing data codes: None 4. Variable List A. Name: Wvlgth Description: Wavelength of light in nanometers B. Name: deltaT_k0.1 Description: Difference in transmission of LCP vs RCP light for a disk made of Pasteur parameter = 0.1 material, relative to a uniform film with the same properties C. Name: deltaT_k0.01 Description: Difference in transmission of LCP vs RCP light for a disk made of Pasteur parameter = 0.01 material, relative to a uniform film with the same properties D. Name: deltaT_k0.001 Description: Difference in transmission of LCP vs RCP light for a disk made of Pasteur parameter = 0.001 material, relative to a uniform film with the same properties E. Name: Cr_k0.1 Description: volume-averaged optical chirality for a disk made of Pasteur parameter = 0.1 material under RCP light F. Name: Cr_k0.01 Description: volume-averaged optical chirality for a disk made of Pasteur parameter = 0.01 material under RCP light G. Name: Cr_k0.001 Description: volume-averaged optical chirality for a disk made of Pasteur parameter = 0.001 material under RCP light H. Name: Cl_k0.1 Description: volume-averaged optical chirality for a disk made of Pasteur parameter = 0.1 material under LCP light I. Name: Cl_k0.01 Description: volume-averaged optical chirality for a disk made of Pasteur parameter = 0.01 material under LCP light J. Name: Cl_k0.001 Description: volume-averaged optical chirality for a disk made of Pasteur parameter = 0.001 material under LCP light K. Name: Er_k0.1 Description: electric field intensity enhancement of RCP light at the center of the disk for a Pasteur parameter = 0.1 material L. Name: Hr_k0.1 Description: magnetic field intensity enhancement of RCP light at the center of the disk for a Pasteur parameter = 0.1 material M. Name: El_k0.1 Description: electric field intensity enhancement of LCP light at the center of the disk for a Pasteur parameter = 0.1 material N. Name: Hl_k0.1 Description: magnetic field intensity enhancement of LCP light at the center of the disk for a Pasteur parameter = 0.1 material O. Name: CD_0.05i Description: circular dichroism enhancement of a disk made of Pasteur parameter = 0.05i material, relative to a film made of the same material P. Name: CD_0.005i Description: circular dichroism enhancement of a disk made of Pasteur parameter = 0.005i material, relative to a film made of the same material Q. Name: CD_0.0005i Description: circular dichroism enhancement of a disk made of Pasteur parameter = 0.0005i material, relative to a film made of the same material R. Name: Cr_0.05i Description: volume-averaged optical chirality for a disk made of Pasteur parameter = -0.05i material under RCP light S. Name: Cr_0.005i Description: volume-averaged optical chirality for a disk made of Pasteur parameter = -0.005i material under RCP light T. Name: Cr_0.0005i Description: volume-averaged optical chirality for a disk made of Pasteur parameter = -0.0005i material under RCP light U. Name: Cl_0.05i Description: volume-averaged optical chirality for a disk made of Pasteur parameter = -0.05i material under LCP light V. Name: Cl_0.005i Description: volume-averaged optical chirality for a disk made of Pasteur parameter = -0.005i material under LCP light W. Name: Cl_0.0005i Description: volume-averaged optical chirality for a disk made of Pasteur parameter = -0.0005i material under LCP light X. Name: Wvlgth_Fields Description:Wavelength in nanometers for electric and magnetic field intensity enhancement at the center of the disk for a Pasteur parameter = -0.05i material Y. Name: Er_k0.05i Description: electric field intensity enhancement of RCP light at the center of the disk for a Pasteur parameter = -0.05i material Z. Name: Hr_k0.05i Description: magnetic field intensity enhancement of RCP light at the center of the disk for a Pasteur parameter = -0.05i material AA. Name: El_k0.05i Description: electric field intensity enhancement of LCP light at the center of the disk for a Pasteur parameter = -0.05i material AB. Name: Hl_k0.05i Description: magnetic field intensity enhancement of LCP light at the center of the disk for a Pasteur parameter = -0.05i material ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_6_Data.csv ----------------------------------------- 1. Number of variables: 14 2. Number of cases/rows: 252 3. Missing data codes: None 4. Variable List A. Name: Wvlgth Description: Wavelength of light in meters B. Name: Real_k_720nm Description: The real part of the Pasteur parameter, kappa, for center frequency 720 nm C. Name: Real_k_760nm Description: The real part of the Pasteur parameter, kappa, for center frequency 760 nm D. Name: Real_k_800nm Description: The real part of the Pasteur parameter, kappa, for center frequency 800 nm E. Name: Imag_k_720nm Description: The imaginary part of the Pasteur parameter, kappa, for center frequency 720 nm F. Name: Imag_k_760nm Description: The imaginary part of the Pasteur parameter, kappa, for center frequency 760 nm G. Name: Imag_k_800nm Description: The imaginary part of the Pasteur parameter, kappa, for center frequency 800 nm H. Name: CD_720nm Description: circular dichroism of a disk with center frequency 720 nm in deg I. Name: CD_760nm Description: circular dichroism of a disk with center frequency 760 nm in deg J. Name: CD_800nm Description: circular dichroism of a disk with center frequency 800 nm in deg K. Name: CD_720nm_Film Description: circular dichroism of a film with center frequency 720 nm in deg L. Name: CD_760nm_Film Description: circular dichroism of a film with center frequency 760 nm in deg M. Name: CD_800nm_Film Description: circular dichroism of a film with center frequency 800 nm in deg N. Name: CD_Enhance_760nm Description: circular dichroism enhancement of a disk with center frequency 760 nm, relative to a uniform film with the same properties ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_7_Data.csv ----------------------------------------- 1. Number of variables: 4 2. Number of cases/rows: 102 3. Missing data codes: None 4. Variable List A. Name: Wvlgth Description: Wavelength of light in nanometers B. Name: CD_disk_chiral Description: Circular dichroism for the chiral disk in deg C. Name: CD_chiralshape_achiral Description: Circular dichroism for the chiral shape made of achiral material in deg D. Name: CD_chiralshape_chiral Description: Circular dichroism for the chiral shape made of chiral material in deg ---------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_S1_Data.csv ----------------------------------------- 1. Number of variables: 3 2. Number of cases/rows: 6226 3. Missing data codes: None 4. Variable List A. Name: Y Description: distance along the y direction in nanometers B. Name: Z Description: distance along the z direction in nanometers C. Name: Phase Lag Description: Phase difference between parallel components of the electric and magnetic fields for d = 468 nm disk ---------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_S2_Data.csv ----------------------------------------- 1. Number of variables: 3 2. Number of cases/rows: 5563 3. Missing data codes: None 4. Variable List A. Name: x_E_xy Description: distance along the x direction in nanometers for the Exy plot B. Name: y_E_xy Description: distance along the y direction in nanometers for the Exy plot C. Name: E_xy Description: normalized electric field intensity in the Exy plane D. Name: y_E_yz Description: distance along the y direction in nanometers for the Eyz plot E. Name: z_E_yz Description: distance along the z direction in nanometers for the Eyz plot F. Name: E_yz Description: normalized electric field intensity in the Eyz plane G. Name: x_H_xy Description: distance along the x direction in nanometers for the Hxy plot H. Name: y_H_xy Description: distance along the y direction in nanometers for the Hxy plot I. Name: H_xy Description: normalized magnetic field intensity in the Hxy plane J. Name: y_H_yz Description: distance along the y direction in nanometers for the Hyz plot K. Name: z_H_yz Description: distance along the z direction in nanometers for the Hyz plot L. Name: Hyz Description: normalized magnetic field intensity in the Hyz plane M. Name: Y Description: distance along the y direction in nanometers N. Name: Z Description: distance along the z direction in nanometers O. Name: Phase Lag Description: Phase difference between parallel components of the electric and magnetic fields for d = 468 nm disk ---------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_S3_Data.csv ----------------------------------------- 1. Number of variables: 3 2. Number of cases/rows: 652 3. Missing data codes: None 4. Variable List A. Name: Y Description: distance along the y direction in nanometers B. Name: Z Description: distance along the z direction in nanometers C. Name: C_Enhancement Description: local density of chirality relative to a uniform film. Data are plotted using the command imagesc(Y,Z,C_Enhancement) ---------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_S4_Data.csv ----------------------------------------- 1. Number of variables: 7 2. Number of cases/rows: 2189 3. Missing data codes: None 4. Variable List A. Name: Y Description: distance along the y direction in nanometers B. Name: Z Description: distance along the z direction in nanometers C. Name: C_D468 Description: normalized local density of chirality for the 468 nm disk D. Name: C_D325 Description: normalized local density of chirality for the 325 nm disk E. Name: nm_y_0 Description: distance along the z direction at y = 0 in nanometers F. Name: C_line_top_D468 Description: normalized local density of chirality for the 468 nm disk along the y = 0 line G. Name: C_line_top_D325 Description: normalized local density of chirality for the 325 nm disk along the y = 0 line ---------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_S5_Data.csv ----------------------------------------- 1. Number of variables: 20 2. Number of cases/rows: 102 3. Missing data codes: None 4. Variable List A. Name: Wvlgth_CD Description: Wavelength of light in nanometers for the Film_CD and Disk_CD data B. Name: Film_CD Description: circular dichroism of the film in deg C. Name: Disk_CD Description: circular dichroism of the 468 nm disk in deg D. Name: D Description: the disk diameters in nanometers E. Name: Wvlgth_dsweep Description: Wavelength of light in nanometers for variables F - T F. Name: D275 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 275 nm disk normalized by that of a film made of the same material G. Name: D300 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 300 nm disk normalized by that of a film made of the same material H. Name: D325 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 325 nm disk normalized by that of a film made of the same material I. Name: D350 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 350 nm disk normalized by that of a film made of the same material J. Name: D375 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 375 nm disk normalized by that of a film made of the same material K. Name: D400 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 400 nm disk normalized by that of a film made of the same material L. Name: D425 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 425 nm disk normalized by that of a film made of the same material M. Name: D450 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 450 nm disk normalized by that of a film made of the same material N. Name: D475 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 475 nm disk normalized by that of a film made of the same material O. Name: D500 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 500 nm disk normalized by that of a film made of the same material P. Name: D525 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 525 nm disk normalized by that of a film made of the same material Q. Name: D550 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 550 nm disk normalized by that of a film made of the same material R. Name: D575 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 575 nm disk normalized by that of a film made of the same material S. Name: D600 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 600 nm disk normalized by that of a film made of the same material T. Name: D625 Description: [-log_10⁡(T_LCP)- log10(T_RCP)] enhancement of the 625 nm disk normalized by that of a film made of the same material ---------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_S6_Data.csv ----------------------------------------- 1. Number of variables: 13 2. Number of cases/rows: 102 3. Missing data codes: None 4. Variable List A. Name: Wvlgth Description: Wavelength of light in nanometers B. Name: deltaT_disk_k0.001 Description: Difference in transmission of LCP vs RCP light for a disk made of Pasteur parameter = 0.001 material C. Name: deltaT_disk_k0.01 Description: Difference in transmission of LCP vs RCP light for a disk made of Pasteur parameter = 0.01 material D. Name: deltaT_disk_k0.1 Description: Difference in transmission of LCP vs RCP light for a disk made of Pasteur parameter = 0.1 material E. Name: deltaT_film_k0.001 Description: Difference in transmission of LCP vs RCP light for a film made of Pasteur parameter = 0.001 material F. Name: deltaT_film_k0.01 Description: Difference in transmission of LCP vs RCP light for a film made of Pasteur parameter = 0.01 material G. Name: deltaT_film_k0.1 Description: Difference in transmission of LCP vs RCP light for a film made of Pasteur parameter = 0.1 material H. Name: CD_disk_k0.05i Description: circular dichroism for a disk made of Pasteur parameter = -0.05i material in deg I. Name: CD_disk_k0.005i Description: circular dichroism for a disk made of Pasteur parameter = -0.005i material in deg J. Name: CD_disk_k0.0005i Description: circular dichroism for a disk made of Pasteur parameter = -0.0005i material in deg K. Name: CD_film_k0.05i Description: circular dichroism for a film made of Pasteur parameter = -0.05i material in deg L. Name: CD_film_k0.005i Description: circular dichroism for a film made of Pasteur parameter = -0.005i material in deg M. Name: CD_film_k0.0005i Description: circular dichroism for a film made of Pasteur parameter = -0.0005i material in deg ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_S7_Data.csv ----------------------------------------- 1. Number of variables: 7 2. Number of cases/rows: 102 3. Missing data codes: None 4. Variable List A. Name: Wvlgth Description: Wavelength of light in nanometers B. Name: C_k0.1_Lossless Description: electric field intensity enhancement for right circularly polarized light for lossless material C. Name: C_k0.01_Lossless Description: electric field intensity enhancement for left circularly polarized light for lossless material D. Name: C_k0.001_Lossless Description: magnetic field intensity enhancement for right circularly polarized light for lossless material E. Name: C_k0.05i_Lossy Description: magnetic field intensity enhancement for left circularly polarized light for lossless material F. Name: C_k0.005i_Lossy Description: electric field intensity enhancement for right circularly polarized light for lossy material G. Name: C_k0.0005i_Lossy Description: electric field intensity enhancement for left circularly polarized light for lossy material ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_S8_Data.csv ----------------------------------------- 1. Number of variables: 9 2. Number of cases/rows: 102 3. Missing data codes: None 4. Variable List A. Name: Wvlgth Description: Wavelength of light in nanometers B. Name: Er_Lossless Description: electric field intensity enhancement for right circularly polarized light for lossless material C. Name: El_Lossless Description: electric field intensity enhancement for left circularly polarized light for lossless material D. Name: Hr_Lossless Description: magnetic field intensity enhancement for right circularly polarized light for lossless material E. Name: Hl_Lossless Description: magnetic field intensity enhancement for left circularly polarized light for lossless material F. Name: Er_Lossy Description: electric field intensity enhancement for right circularly polarized light for lossy material G. Name: El_Lossy Description: electric field intensity enhancement for left circularly polarized light for lossy material H. Name: Hr_Lossy Description: magnetic field intensity enhancement for right circularly polarized light for lossy material I. Name: Hl_Lossy Description: magnetic field intensity enhancement for left circularly polarized light for lossy material ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure_S9_Data.csv ----------------------------------------- 1. Number of variables: 6 2. Number of cases/rows: 102 3. Missing data codes: None 4. Variable List A. Name: Wvlgth Description: Wavelength of light in nanometers B. Name: g_disk_chiral Description: g-Factor for the chiral disk C. Name: g_chiralshape_achiral Description: g-Factor for the chiral shape made of achiral material D. Name: g_chiralshape_chiral Description: g-Factor for the chiral shape made of chiral material E. Name: CD_disk_chiral Description: circular dichroism for the disk made of chiral material in deg F. Name: CD_chiralenantiomer_chiral Description: circular dichroism for the chiral shape made of chiral material in deg ----------------------------------------- DATA TREE ----------------------------------------- | Figure_2_Data.csv | Figure_3_Data.csv | Figure_4_Data.zip \ | Figure_4_YZ.csv | | g_enhance_D300.csv | | g_enhance_D468.csv | | | Figure_5_Data.csv | Figure_6_Data.csv | Figure_7_Data.csv | Figure_S1_Data.csv | Figure_S2_Data.csv | Figure_S3_Data.csv | Figure_S4_Data.zip \ | C_D325.csv | | C_D468.csv | | Figure_S4_YZ.csv | | | Figure_S5_Data.csv | Figure_S6_Data.csv | Figure_S7_Data.csv | Figure_S8_Data.csv | Figure_S9_Data.csv