Hlubina, P. High performance liquid analyte sensing based on Bloch surface wave resonances in the spectral domain. Opt. Laser Technol. 145, 107492 (2022).
Goyal, A. K., Kumar, A. & Massoud, Y. Thermal stability analysis of surface wave assisted bio-photonic sensor. Photonics 9, 324 (2022).
Joannopoulos, J. D., Johnson, S. G., Winn, J. N. & Meade, R. D. Photonic Crystals: Molding the Flow of Light 2nd edn. (Princeton University Press, 2008).
Goyal, A. K., Dutta, H. S. & Pal, S. Recent advances and progress in photonic crystal based gas sensors. J. Phys. D Appl. Phys. 50(20), 203001 (2017).
Ahmed, A. M. & Mehaney, A. Ultra-high sensitive 1D porous silicon photonic crystal sensor based on the coupling of Tamm/Fano resonances in the mid-infrared region. Sci. Rep. 9(1), 6973 (2019).
Goyal, A. K. Design analysis of one-dimensional photonic crystal-based structure for hemoglobin concentration measurement. Progress Electromagn. Res. M 97, 77–86 (2020).
Goyal, A. K. & Pal, S. Design analysis of Bloch surface wave-based sensor for haemoglobin concentration measurement. Appl. Nanosci. 10(9), 3639–3647 (2020).
Kaviani, H. & Barvestani, J. Photonic crystal-based biosensor with the irregular defect for detection of blood plasma. Appl. Surf. Sci. 599, 153743 (2022).
Goyal, A. K. & Massoud, Y. Interface edge mode confinement in dielectric-based quasi-periodic photonic crystal structure. Photonics 9, 676 (2022).
Giden, I. H. Photonic crystal based interferometric design for label-free all-optical sensing applications. Opt. Express 30, 21679–21686 (2022).
Zaky, Z. A., Panda, A., Pukhrambam, P. D. & Aly, A. H. The impact of magnetized cold plasma and its various properties in sensing applications. Sci Rep. 12, 3754 (2022).
Aly, A. H. et al. Photonic crystal enhanced by metamaterial for measuring electric permittivity in ghz range. Photonics 8(10), 416 (2021).
Goyal, A. K. & Saini, J. Performance analysis of Bloch surface wave-based sensor using transition metal dichalcogenides. Appl. Nanosci. 196, 4307 (2020).
Singh, B. K. & Pandey, P. C. Influence of graded index materials on the photonic localization in one-dimensional quasiperiodic (Thue-Mosre and Double-Periodic) photonic crystals. Opt. Commun. 333, 84–91 (2014).
Zhu, Q., Jin, L. & Fu, Y. Graded index photonic crystals: A review. Ann. Phys. 527, 205–218 (2015).
Ren, K. & Ren, X. Controlling light transport by using a graded photonic crystal. Appl Opt. 50, 25 (2011).
Centeno, E. & Cassagne, D. Graded photonic crystals. Opt. Lett. 30, 2278–2280 (2005).
Centeno, E., Cassagne, D. & Albert, J. P. Mirage and superbending effect in two dimensional graded photonic crystals. Phys. Rev. B. 73(23), 235119 (2006).
Kurt, H., Oner, B. B., Turduev, M. & Giden, I. H. Modified Maxwell fish-eye approach for efficient coupler design by graded photonic crystals. Opt. express. 20(20), 22018–22033 (2012).
Turduev, M., Giden, I. H. & Kurt, H. Design of flat lens-like graded index medium by photonic crystals: Exploring both low and high frequency regimes. Opt. Commun. 339, 22–33 (2015).
Turduev, M., Oner, B., Giden, I. & Kurt, H. Mode transformation using graded photonic crystals with axial asymmetry. J. Opt. Soc. Am. B 30, 1569–1579 (2013).
Oner, B. B., Turduev, M., Giden, I. H. & Kurt, H. Efficient mode converter design using asymmetric graded index photonic structures. Opt. Lett. 38(2), 220–222 (2013).
Yilmaz, D., Giden, I. H., Turduev, M. & Kurt, H. Design of a wavelength selective medium by graded index photonic crystals. IEEE J. Quant. Electron. 49(5), 477–484 (2013).
Roux, L. et al. Wavelength demultiplexer based on a two-dimensional graded photonic crystal. IEEE Photon. Tech. L. 23(15), 1094–1096 (2011).
Yogesh, N. & Subramanian, V. Spatial beam compression and effective beam injection using triangular gradient index profile photonic crystals. Prog. Electromagn. Res. 129, 51–67 (2012).
Lu, M. et al. Beam aperture modifier and beam deflector using gradient-index photonic crystals. J. Appl. Phys. 108(103505), 10 (2010).
Savotchenko, S. E. Temperature-controlled waveguide properties of the linearly graded-index film in the photorefractive crystal. Appl. Phys. B 129, 7. https://doi.org/10.1007/s00340-022-07950-4 (2023).
Savotchenko, S. E. Surface waves propagating along the interface between parabolic graded-index medium and photorefractive crystal with diffusion nonlinearity. Phys. B 648, 414434 (2023).
Rauh, H., Yampolskaya, G. I. & Yampolskii, S. V. Optical transmittance of photonic structures with linearly graded dielectric constituents. New J. Phys. 12, 073033 (2010).
Singh, B. K., Bijalwan, A., Pandey, P. C. & Rastogi, V. Multi-channel photonic bandgap consequences in one-dimensional linear, exponential, and hyperbolic graded-index photonic crystals. J. Opt. Soc. Am. B 37(2), 523 (2020).
Singh, B. K., Bambole, V., Rastogi, V. & Pandey, P. C. Multi-channel photonic bandgap engineering in hyperbolic graded index materials embedded one-dimensional photonic crystals. Opt. Laser Technol. 129, 106293 (2020).
Rauh, H., Yampolskaya, G. I. & Yampolskii, S. V. Optical transmittance of photonic structures with logarithmically similar dielectric constituents. J. Opt. 14, 015101 (2012).
Ratra, K., Singh, M. & Goyal, A. K. Design and analysis of omni-directional solar spectrum reflector using one-dimensional photonic crystal. J. Nanophoton. 14, 026005 (2020).
Ratra, K. et al. Design and analysis of broadband reflector for passive radiative cooling. In 2019 International Conference on Signal Processing and Communication (ICSC), 300–303 (2019).
Goyal, A. K., Dutta, H. S. & Pal, S. The porous photonic crystal structure for sensing applications. J. Nanophoton. 12(04), 1. https://doi.org/10.1117/1.jnp.12.040501 (2018).
Goyal, A. K., Dutta, H. S., & Pal, S. Porous multilayer photonic band gap structure for optical sensing. In 13th International Conference on Fiber Optics and Photonics, OSA Technical Digest (online). paper Tu4A.12 (2016).
Yeh, P. & Hendry, M. Optical waves in layered media. Phys. Today 43(1), 77 (1990).
Panda, A. & Pukhrambam, P. D. Design and analysis of one-dimensional photonic crystal biosensor device for identification of cancerous cells. In Next Generation Smart Nano-Bio-Devices. Smart Innovation, Systems and Technologies vol 322 153 (Springer, 2023).
Sayed, H., Alamri, S., Matar, Z. & Aly, A. H. Salinity sensor based on 1D photonic crystals by tamm resonance with different geometrical shapes. Plasmonics 17(1), 409–422 (2022).
Sharma, S. & Kumar, A. Design of a biosensor for the detection of dengue virus using 1D photonic crystals. Plasmonics 17(2), 675–680 (2022).
Taya, S. A., Sharma, A., Doghmosh, N. & Colak, I. Detection of water concentration in ethanol solution using a ternary photonic crystal-based sensor. Mater. Chem. Phys. 279, 125772 (2022).
