Journal Publications
Journal Publications
(†Equal contribution)
(†Equal contribution)
2022
2022
92. A. Ahmadivand, B. Gerislioglu, Photonic and plasmonic metasensors, Laser & Photonics Reviews 16(2), 2100328 (2022). [Link]
92. A. Ahmadivand, B. Gerislioglu, Photonic and plasmonic metasensors, Laser & Photonics Reviews 16(2), 2100328 (2022). [Link]
91. B. Akin, M. R. Linford, A. Ahmadivand, S. Altindal, All-dielectric Fabry–Pérot cavity design for spectrally selective mid-infrared absorption, Physica Status Solidi b In press, 2100464 (2022). [Link]
91. B. Akin, M. R. Linford, A. Ahmadivand, S. Altindal, All-dielectric Fabry–Pérot cavity design for spectrally selective mid-infrared absorption, Physica Status Solidi b In press, 2100464 (2022). [Link]
2021
2021
90. A. Ahmadivand, B. Gerislioglu, Deep- and vacuum-ultraviolet metaphotonic light sources, Materials Today 51, 208-221 (2021). [Link]
90. A. Ahmadivand, B. Gerislioglu, Deep- and vacuum-ultraviolet metaphotonic light sources, Materials Today 51, 208-221 (2021). [Link]
89. A. Ahmadivand, B. Gerislioglu, Z. Ramezani, A. Kaushik, P. Manickam, S. A. Ghoreishi, Functionalized terahertz plasmonic metasensors: Femtomolar-level detection of SARS-CoV-2 spike proteins, Biosensors & Bioelectronics 177, 112971 (2021). [Link]
89. A. Ahmadivand, B. Gerislioglu, Z. Ramezani, A. Kaushik, P. Manickam, S. A. Ghoreishi, Functionalized terahertz plasmonic metasensors: Femtomolar-level detection of SARS-CoV-2 spike proteins, Biosensors & Bioelectronics 177, 112971 (2021). [Link]
88. A. Ahmadivand, Tunneling plasmonics: Vacuum Rabi oscillations in carbon nanotube-mediated electromigrated nanojunctions, The Journal of Physical Chemistry C 125(1), 782–791 (2021). [Link]
88. A. Ahmadivand, Tunneling plasmonics: Vacuum Rabi oscillations in carbon nanotube-mediated electromigrated nanojunctions, The Journal of Physical Chemistry C 125(1), 782–791 (2021). [Link]
87. A. Yadav, B. Gerislioglu, A. Ahmadivand, A. Kaushik, G. J. Cheng, Z. Ouyang, Q. Wang, V. S. Yadav, Y. K. Mishra, Y. Wu, Y. Liu, S. Rama Krishna, Controlled self-assembly of plasmon-based photonic nanocrystals for high performance photonic technologies, Nano Today 37, 101072 (2021). [Link]
87. A. Yadav, B. Gerislioglu, A. Ahmadivand, A. Kaushik, G. J. Cheng, Z. Ouyang, Q. Wang, V. S. Yadav, Y. K. Mishra, Y. Wu, Y. Liu, S. Rama Krishna, Controlled self-assembly of plasmon-based photonic nanocrystals for high performance photonic technologies, Nano Today 37, 101072 (2021). [Link]
2020
2020
86. A. Ahmadivand, B. Gerislioglu, R. Ahuja, Y. K. Mishra, Toroidal metaphotonics and metadevices, Laser & Photonics Reviews 14(11), 1900326 (2020). [Link]
86. A. Ahmadivand, B. Gerislioglu, R. Ahuja, Y. K. Mishra, Toroidal metaphotonics and metadevices, Laser & Photonics Reviews 14(11), 1900326 (2020). [Link]
85. B. Ostovar, Y. Cai, L. J. Tauzin, S. A. Lee, A. Ahmadivand, R. Zhang, P. Nordlander, S. Link, Increased intraband transitions in smaller gold nanorods enhance light emission, ACS Nano 14 (11), 15757–15765 (2020). [Link]
85. B. Ostovar, Y. Cai, L. J. Tauzin, S. A. Lee, A. Ahmadivand, R. Zhang, P. Nordlander, S. Link, Increased intraband transitions in smaller gold nanorods enhance light emission, ACS Nano 14 (11), 15757–15765 (2020). [Link]
84. A. Ahmadivand, B. Gerislioglu, Tunable plexciton dynamics in electrically biased nanojunctions, Journal of Applied Physics 128, 063101 (2020). [Link]
84. A. Ahmadivand, B. Gerislioglu, Tunable plexciton dynamics in electrically biased nanojunctions, Journal of Applied Physics 128, 063101 (2020). [Link]
82. B. Gerislioglu, L. Dong, A. Ahmadivand, H. Hu, P. Nordlander, N. J. Halas, Monolithic metal dimer-on-film structure: new plasmonic properties introduced by the underlying metal, Nano Letters 20, 2087-2093 (2020). [Link]
82. B. Gerislioglu, L. Dong, A. Ahmadivand, H. Hu, P. Nordlander, N. J. Halas, Monolithic metal dimer-on-film structure: new plasmonic properties introduced by the underlying metal, Nano Letters 20, 2087-2093 (2020). [Link]
81. A. Ahmadivand, B. Gerislioglu, R. Ahuja, Y. K. Mishra, Terahertz plasmonics: the rise of toroidal metadevices towards immunobiosensings, Materials Today 32, 108-130 (2020). [Link]
81. A. Ahmadivand, B. Gerislioglu, R. Ahuja, Y. K. Mishra, Terahertz plasmonics: the rise of toroidal metadevices towards immunobiosensings, Materials Today 32, 108-130 (2020). [Link]
80. A. Tomitaka, H. Arami, A. Ahmadivand, N. Pala, A. J. McGoron, Y. Takemura, M. Febo, M. Nair, Magneto-plasmonic nanostars for image-guided and NIR-triggered drug delivery, Scientific Reports 10, 10115 (2020). [Link]
80. A. Tomitaka, H. Arami, A. Ahmadivand, N. Pala, A. J. McGoron, Y. Takemura, M. Febo, M. Nair, Magneto-plasmonic nanostars for image-guided and NIR-triggered drug delivery, Scientific Reports 10, 10115 (2020). [Link]
79. B. Gerislioglu, G. Bakan, J. Adam, R. Ahuja, Y. K. Mishra, A. Ahmadivand, The role of Ge2Sb2Te5 in enhancing the performance of functional plasmonic devices, Materials Today Physics 12, 100178 (2020). [Link]
79. B. Gerislioglu, G. Bakan, J. Adam, R. Ahuja, Y. K. Mishra, A. Ahmadivand, The role of Ge2Sb2Te5 in enhancing the performance of functional plasmonic devices, Materials Today Physics 12, 100178 (2020). [Link]
78. B. Gerislioglu,† A. Ahmadivand†, Functional charge transfer plasmon metadevices, Research 2020, 9468692 (2020). [Link]
78. B. Gerislioglu,† A. Ahmadivand†, Functional charge transfer plasmon metadevices, Research 2020, 9468692 (2020). [Link]
77. A. Ahmadivand, and B. Gerislioglu, Theoretical study of photoluminescence spectroscopy of strong exciton-polariton coupling in dielectric nanodisks with anapole states, Materials Today Chemistry 16, 100254 (2020). [Link]
77. A. Ahmadivand, and B. Gerislioglu, Theoretical study of photoluminescence spectroscopy of strong exciton-polariton coupling in dielectric nanodisks with anapole states, Materials Today Chemistry 16, 100254 (2020). [Link]
76. A. Yadav, A. Kaushik, Y. K. Mishra, V. Agrawal, A. Ahmadivand, K. Maliutina, Y. Liu, Z. Ouyang, W. Dong, and G. J. Cheng, Fabrication of 3D polymeric photonic arrays and related applications, Materials Today Chemistry 15, 100208 (2020). [Link]
76. A. Yadav, A. Kaushik, Y. K. Mishra, V. Agrawal, A. Ahmadivand, K. Maliutina, Y. Liu, Z. Ouyang, W. Dong, and G. J. Cheng, Fabrication of 3D polymeric photonic arrays and related applications, Materials Today Chemistry 15, 100208 (2020). [Link]
2019
2019
75. A. Ahmadivand, M. Semmlinger, L. Dong, B. Gerislioglu, P. Nordlander, N. J. Halas, Toroidal dipole-enhanced intense deep-ultraviolet beam generation using plasmonic meta-atoms, Nano Letters 19, 605-611 (2019). [Link]
75. A. Ahmadivand, M. Semmlinger, L. Dong, B. Gerislioglu, P. Nordlander, N. J. Halas, Toroidal dipole-enhanced intense deep-ultraviolet beam generation using plasmonic meta-atoms, Nano Letters 19, 605-611 (2019). [Link]
74. A. Ahmadivand, B. Gerislioglu, Z. Ramezani, S. A. Ghoreishi, Attomolar detection of low-molecular weight antibiotics using mid-infrared-resonant toroidal plasmonic metachip technology, Physical Review Applied 12, 034018 (2019). “Editors’ Suggestion” [Link]
74. A. Ahmadivand, B. Gerislioglu, Z. Ramezani, S. A. Ghoreishi, Attomolar detection of low-molecular weight antibiotics using mid-infrared-resonant toroidal plasmonic metachip technology, Physical Review Applied 12, 034018 (2019). “Editors’ Suggestion” [Link]
73. B. Gerislioglu†, A. Ahmadivand†, J. Adam, Infrared plasmonic photodetectors: The emergence of high photon-yield toroidal metadevices, Materials Today Chemistry 14, 100206 (2019). [Link]
73. B. Gerislioglu†, A. Ahmadivand†, J. Adam, Infrared plasmonic photodetectors: The emergence of high photon-yield toroidal metadevices, Materials Today Chemistry 14, 100206 (2019). [Link]
72. D. Renard, S. Tian, A. Ahmadivand, C. J. DeSanties, B. D. Clark, P. Nordlander, N. J. Halas, Polydopamine stabilized aluminum nanocrystals: aqueous stability and Benzo[a]pyrene detection, ACS Nano 13, 3117-3124 (2019). [Link]
72. D. Renard, S. Tian, A. Ahmadivand, C. J. DeSanties, B. D. Clark, P. Nordlander, N. J. Halas, Polydopamine stabilized aluminum nanocrystals: aqueous stability and Benzo[a]pyrene detection, ACS Nano 13, 3117-3124 (2019). [Link]
71. A. Ahmadivand, B. Gerislioglu, Z. Ramezani, S. A. Ghoreishi, Demonstration of robust plexcitonic coupling in organic molecules-mediated toroidal meta-atoms, Advanced Optical Materials 7, 1901248 (2019). [Link]
71. A. Ahmadivand, B. Gerislioglu, Z. Ramezani, S. A. Ghoreishi, Demonstration of robust plexcitonic coupling in organic molecules-mediated toroidal meta-atoms, Advanced Optical Materials 7, 1901248 (2019). [Link]
70. Y. -Y. Cai, S. S. Collins, M. J. Gallagher, U. Bhattacharjee, R. Zhang, T. H. Chow, A. Ahmadivand, B. Ostovar, A. Al-Zubeidi, J. Wang, P. Nordlander, C. F. Landes, S. Link, Single-particle emission spectroscopy resolves d-hole relaxation in copper nanocubes, ACS Energy Letters 4, 2458-2465 (2019). [Link]
70. Y. -Y. Cai, S. S. Collins, M. J. Gallagher, U. Bhattacharjee, R. Zhang, T. H. Chow, A. Ahmadivand, B. Ostovar, A. Al-Zubeidi, J. Wang, P. Nordlander, C. F. Landes, S. Link, Single-particle emission spectroscopy resolves d-hole relaxation in copper nanocubes, ACS Energy Letters 4, 2458-2465 (2019). [Link]
69. A. Ahmadivand, B. Gerislioglu, Z. Ramezani, Generation of magnetoelectric photocurrents using toroidal resonances: A new class of infrared plasmonic photodetectors, Nanoscale 11, 13108 (2019). [Link]
69. A. Ahmadivand, B. Gerislioglu, Z. Ramezani, Generation of magnetoelectric photocurrents using toroidal resonances: A new class of infrared plasmonic photodetectors, Nanoscale 11, 13108 (2019). [Link]
68. A. Ahmadivand B. Gerislioglu, Z. Ramezani, Gated graphene islands enabled tunable charge transfer plasmon terahertz metamodulator, Nanoscale 11, 8091 (2019). [Link]
68. A. Ahmadivand B. Gerislioglu, Z. Ramezani, Gated graphene islands enabled tunable charge transfer plasmon terahertz metamodulator, Nanoscale 11, 8091 (2019). [Link]
67. A. Ahmadivand, B. Gerislioglu, G. T. Noe, Y. K. Mishra, Gated graphene enabled tunable charge-current configurations in hybrid plasmonic metamaterials, ACS Applied Electronic Materials 1, 637 (2019). [Link]
67. A. Ahmadivand, B. Gerislioglu, G. T. Noe, Y. K. Mishra, Gated graphene enabled tunable charge-current configurations in hybrid plasmonic metamaterials, ACS Applied Electronic Materials 1, 637 (2019). [Link]
65. B. Gerislioglu, A. Ahmadivand, The role of electron transfer in the nonlinear response of Ge2Sb2Te5-mediated plasmonic dimers, Photonics 6, 52 (2019). [Link]
65. B. Gerislioglu, A. Ahmadivand, The role of electron transfer in the nonlinear response of Ge2Sb2Te5-mediated plasmonic dimers, Photonics 6, 52 (2019). [Link]
64. B. Gerislioglu, A. Ahmadivand, The observation of high-order charge-current configurations in plasmonic meta-atoms: A numerical approach, Photonics 6, 43 (2019). [Link]
64. B. Gerislioglu, A. Ahmadivand, The observation of high-order charge-current configurations in plasmonic meta-atoms: A numerical approach, Photonics 6, 43 (2019). [Link]
2018
2018
63.M. Tanzid, A. Ahmadivand, R. Zhang, B. Cerjan, A. Sobhani, S. Yazdi, P. Nordlander, N. J. Halas, Combining plasmonic hot carrier generation with free carrier generation with free carrier absorption for high-performance near-infrared silicon-based photodetection, ACS Photonics 8, 3472 (2018). [Link]
63.M. Tanzid, A. Ahmadivand, R. Zhang, B. Cerjan, A. Sobhani, S. Yazdi, P. Nordlander, N. J. Halas, Combining plasmonic hot carrier generation with free carrier generation with free carrier absorption for high-performance near-infrared silicon-based photodetection, ACS Photonics 8, 3472 (2018). [Link]
62. B. Gerislioglu†, A. Ahmadivand†, N. Pala, Tunable plasmonic toroidal terahertz metamodulator, Physical Review B 97, 161405R (2018). [Link]
62. B. Gerislioglu†, A. Ahmadivand†, N. Pala, Tunable plasmonic toroidal terahertz metamodulator, Physical Review B 97, 161405R (2018). [Link]
61. A. Ahmadivand, B. Gerislioglu, Directional toroidal dipoles driven by oblique poloidal and loop currents flows in plasmonic meta-atoms, Journal of Physical Chemistry C 122, 24304 (2018). [Link]
61. A. Ahmadivand, B. Gerislioglu, Directional toroidal dipoles driven by oblique poloidal and loop currents flows in plasmonic meta-atoms, Journal of Physical Chemistry C 122, 24304 (2018). [Link]
60. A. Ahmadivand, B. Gerislioglu, A. Tomitaka, P. Manickam, A. Kaushik, S. Bhansali, M. Nair, N. Pala, Extreme sensitive metasensor for targeted biomarkers identification using colloidal nanoparticles-integrated plasmonic unit cells, Biomedical Optics Express 9, 373 (2018). [Link]
60. A. Ahmadivand, B. Gerislioglu, A. Tomitaka, P. Manickam, A. Kaushik, S. Bhansali, M. Nair, N. Pala, Extreme sensitive metasensor for targeted biomarkers identification using colloidal nanoparticles-integrated plasmonic unit cells, Biomedical Optics Express 9, 373 (2018). [Link]
59. A. Ahmadivand, B. Gerislioglu, N. Pala, Optothermally controllable multiple high-order harmonics generation by Ge2Sb2Te5-mediated Fano clusters, Optical Materials 84, 301 (2018). [Link]
59. A. Ahmadivand, B. Gerislioglu, N. Pala, Optothermally controllable multiple high-order harmonics generation by Ge2Sb2Te5-mediated Fano clusters, Optical Materials 84, 301 (2018). [Link]
58. B. Gerislioglu, A. Ahmadivand, N. Pala, Optothermally controlled charge transfer plasmons in Au-Ge2Sb2Te5 core-shell dimers, Plasmonics 13, 1921 (2018). [Link]
58. B. Gerislioglu, A. Ahmadivand, N. Pala, Optothermally controlled charge transfer plasmons in Au-Ge2Sb2Te5 core-shell dimers, Plasmonics 13, 1921 (2018). [Link]
2017
2017
57. A. Ahmadivand, B. Gerislioglu, P. Manickam, A. Kaushik, S. Bhansali, M. Nair, N. Pala, Rapid detection of infectious envelope proteins by magnetoplasmonic toroidal metasensors, ACS Sensors 2, 1359 (2017). [Link]
57. A. Ahmadivand, B. Gerislioglu, P. Manickam, A. Kaushik, S. Bhansali, M. Nair, N. Pala, Rapid detection of infectious envelope proteins by magnetoplasmonic toroidal metasensors, ACS Sensors 2, 1359 (2017). [Link]
56. A. Ahmadivand, B. Gerislioglu, N. Pala, Active control over the interplay between the dark and hidden sides of plasmonics using metallodielectric Au-Ge2Sb2Te5 unit cells, Journal of Physical Chemistry C 121, 19966 (2017). [Link]
56. A. Ahmadivand, B. Gerislioglu, N. Pala, Active control over the interplay between the dark and hidden sides of plasmonics using metallodielectric Au-Ge2Sb2Te5 unit cells, Journal of Physical Chemistry C 121, 19966 (2017). [Link]
55. A. Ahmadivand, B. Gerislioglu, R. Sinha, M. Karabiyik, N. Pala, Optical switching using transition from dipolar to charge transfer plasmon modes in Ge2Sb2Te5 bridged metallodielectric dimers, Scientific Reports 7, 42807 (2017). [Link]
55. A. Ahmadivand, B. Gerislioglu, R. Sinha, M. Karabiyik, N. Pala, Optical switching using transition from dipolar to charge transfer plasmon modes in Ge2Sb2Te5 bridged metallodielectric dimers, Scientific Reports 7, 42807 (2017). [Link]
54. P. K. Vabbina, R. Sinha, A. Ahmadivand, M. Karabiyik, B. Gerislioglu, O. Awadallah, N. Pala, Sonochemical synthesis of zinc-oxide core-shell nanorod radial P-N homojunction ultraviolet photodetector, ACS Applied Materials Interfaces 9, 19791 (2017). [Link]
54. P. K. Vabbina, R. Sinha, A. Ahmadivand, M. Karabiyik, B. Gerislioglu, O. Awadallah, N. Pala, Sonochemical synthesis of zinc-oxide core-shell nanorod radial P-N homojunction ultraviolet photodetector, ACS Applied Materials Interfaces 9, 19791 (2017). [Link]
53. B. Gerislioglu, A. Ahmadivand, N. Pala, Single- and multimode beam propagation through an optothermally controllable Fano clusters—mediated waveguide, Journal of Lightwave Technology 35, 4961 (2017). [Link]
53. B. Gerislioglu, A. Ahmadivand, N. Pala, Single- and multimode beam propagation through an optothermally controllable Fano clusters—mediated waveguide, Journal of Lightwave Technology 35, 4961 (2017). [Link]
52. A. Ahmadivand, B. Gerislioglu, N. Pala, Graphene optical switch based on charge transfer plasmons, Physical Status Solidi Letters 11(11), 1700285 (2017). [Link]
52. A. Ahmadivand, B. Gerislioglu, N. Pala, Graphene optical switch based on charge transfer plasmons, Physical Status Solidi Letters 11(11), 1700285 (2017). [Link]
51. A. Ahmadivand, B. Gerislioglu, N. Pala, Large-modulation-depth polarization-sensitive plasmonic toroidal terahertz metamaterial, IEEE Photonics Technology Letters 29, 1860 (2017). [Link]
51. A. Ahmadivand, B. Gerislioglu, N. Pala, Large-modulation-depth polarization-sensitive plasmonic toroidal terahertz metamaterial, IEEE Photonics Technology Letters 29, 1860 (2017). [Link]
50. A. Ahmadivand, B. Gerislioglu, N. Pala, Azimuthally and radially excited charge transfer plasmon and Fano lineshapes in conductive sublayer-mediated nanoassemblies, J. Opt. Soc. Am. A 34, 2052 (2017). [Link]
50. A. Ahmadivand, B. Gerislioglu, N. Pala, Azimuthally and radially excited charge transfer plasmon and Fano lineshapes in conductive sublayer-mediated nanoassemblies, J. Opt. Soc. Am. A 34, 2052 (2017). [Link]
49. B. Gerislioglu, A. Ahmadivand, N. Pala, Hybridized plasmons in graphene nanorings for extreme nonlinear optics, Optical Materials 73, 729 (2017). [Link]
49. B. Gerislioglu, A. Ahmadivand, N. Pala, Hybridized plasmons in graphene nanorings for extreme nonlinear optics, Optical Materials 73, 729 (2017). [Link]
48. V. Nooshnab, A. Ahmadivand, Optothermally functional charge transfer plasmon switch, IEEE Photonics Technology Letters 29, 1556 (2017). [Link]
48. V. Nooshnab, A. Ahmadivand, Optothermally functional charge transfer plasmon switch, IEEE Photonics Technology Letters 29, 1556 (2017). [Link]
47. B. Gerislioglu, A. Ahmadivand, M. Karabiyik, R. Sinha, N. Pala, VO2-based reconfigurable antenna platform with addressable microheater matrix, Advanced Electronic Materials 3, 1700170 (2017). “Journal Cover Article” [Link]
47. B. Gerislioglu, A. Ahmadivand, M. Karabiyik, R. Sinha, N. Pala, VO2-based reconfigurable antenna platform with addressable microheater matrix, Advanced Electronic Materials 3, 1700170 (2017). “Journal Cover Article” [Link]
46. A. Ahmadivand, B. Gerislioglu, R. Sinha, M. Karabiyik, N. Pala, Excitation of terahertz charge transfer plasmons in metallic fractal structures, Journal of Infrared, Millim. THz Waves 38, 992 (2017). [Link]
46. A. Ahmadivand, B. Gerislioglu, R. Sinha, M. Karabiyik, N. Pala, Excitation of terahertz charge transfer plasmons in metallic fractal structures, Journal of Infrared, Millim. THz Waves 38, 992 (2017). [Link]
45. A. Ahmadivand, R. Sinha, P. K. Vabbina, M. Karabiyik, S. Kaya, N. Pala, Tunable THz wave absorption by graphene-assisted plasmonic metasurfaces based on metallic split ring resonators, Journal of Nanoparticle Research 19, 3 (2017). [Link]
45. A. Ahmadivand, R. Sinha, P. K. Vabbina, M. Karabiyik, S. Kaya, N. Pala, Tunable THz wave absorption by graphene-assisted plasmonic metasurfaces based on metallic split ring resonators, Journal of Nanoparticle Research 19, 3 (2017). [Link]
44. A. Ahmadivand, R. Sinha, N. Pala, Magnetic Fano resonances in all-dielectric nanocomplexes under cylindrical vector beams excitation, Optics & Laser Technology 90, 65 (2017). [Link]
44. A. Ahmadivand, R. Sinha, N. Pala, Magnetic Fano resonances in all-dielectric nanocomplexes under cylindrical vector beams excitation, Optics & Laser Technology 90, 65 (2017). [Link]
43. A. Ahmadivand, N. Pala, Absorption enhancement in ultrathin structures based on crystalline-Si/Ag parabola nanocones periodic arrays with broadband antireflection property, Silicon 9, 25 (2017). [Link]
43. A. Ahmadivand, N. Pala, Absorption enhancement in ultrathin structures based on crystalline-Si/Ag parabola nanocones periodic arrays with broadband antireflection property, Silicon 9, 25 (2017). [Link]
2016
2016
42. A. Ahmadivand, R. Sinha, P. K. Vabbina, M. Karabiyik, S. Kaya, N. Pala, Hot electron generation by aluminum oligomers in plasmonic ultraviolet photodetectors, Optics Express 24, 13665 (2016). [Link]
42. A. Ahmadivand, R. Sinha, P. K. Vabbina, M. Karabiyik, S. Kaya, N. Pala, Hot electron generation by aluminum oligomers in plasmonic ultraviolet photodetectors, Optics Express 24, 13665 (2016). [Link]
41. A. Ahmadivand, R. Sinha, P. K. Vabbina, M. Karabiyik, S. Kaya, N. Pala, Transition from capacitive coupling to direct charge transfer in asymmetric terahertz plasmonic assemblies, Optics Letters 41, 5333 (2016). [Link]
41. A. Ahmadivand, R. Sinha, P. K. Vabbina, M. Karabiyik, S. Kaya, N. Pala, Transition from capacitive coupling to direct charge transfer in asymmetric terahertz plasmonic assemblies, Optics Letters 41, 5333 (2016). [Link]
40. A. Ahmadivand, R. Sinha, N. Pala, Resonance coupling in plasmonic nanomatryoshka homo- and heterodimers, AIP Advances 6, 065102 (2016). [Link]
40. A. Ahmadivand, R. Sinha, N. Pala, Resonance coupling in plasmonic nanomatryoshka homo- and heterodimers, AIP Advances 6, 065102 (2016). [Link]
39. M. Karabiyik, A. Ahmadivand, R. Sinha, C. Al-Amin, P. K. Vabbina, S. Kaya, G. Rupper, S. Rudin, M. S. Shur, N. Pala, Plasmonic properties of asymmetric dual grating gate plasmonic crystals, Physica Status Solidi B 253, 671 (2016). “Journal Cover Article” [Link]
39. M. Karabiyik, A. Ahmadivand, R. Sinha, C. Al-Amin, P. K. Vabbina, S. Kaya, G. Rupper, S. Rudin, M. S. Shur, N. Pala, Plasmonic properties of asymmetric dual grating gate plasmonic crystals, Physica Status Solidi B 253, 671 (2016). “Journal Cover Article” [Link]
38. A. Ahmadivand, R. Sinha, S. Kaya, N. Pala, Rhodium plasmonics for deep-ultraviolet bio-chemical sensing, Plasmonics 11, 839 (2016). [Link]
38. A. Ahmadivand, R. Sinha, S. Kaya, N. Pala, Rhodium plasmonics for deep-ultraviolet bio-chemical sensing, Plasmonics 11, 839 (2016). [Link]
37. A. Ahmadivand, R. Sinha, S. Kaya, N. Pala, A molecular plasmonic Fano-router: Using hotspots in a single-stone ring-like structure, Optics Communications 367, 123 (2016). [Link]
37. A. Ahmadivand, R. Sinha, S. Kaya, N. Pala, A molecular plasmonic Fano-router: Using hotspots in a single-stone ring-like structure, Optics Communications 367, 123 (2016). [Link]
36. R. Sinha, M. Karabiyik, A. Ahmadivand, C. Al-Amin, M. Shur, N. Pala, Tunable, room temperature CMOS-compatible THz-emitters based on nonlinear mixing in nanodisk resonators, Journal of Infrared, Millim. THz Waves 37, 230 (2016). [Link]
36. R. Sinha, M. Karabiyik, A. Ahmadivand, C. Al-Amin, M. Shur, N. Pala, Tunable, room temperature CMOS-compatible THz-emitters based on nonlinear mixing in nanodisk resonators, Journal of Infrared, Millim. THz Waves 37, 230 (2016). [Link]
35. A. Ahmadivand, N. Pala, Analyzing photothermal heat generation efficiency in a plasmonic silver nanomatryushka dimer, Plasmonics 11, 493 (2016). [Link]
35. A. Ahmadivand, N. Pala, Analyzing photothermal heat generation efficiency in a plasmonic silver nanomatryushka dimer, Plasmonics 11, 493 (2016). [Link]
34. A. Ahmadivand, S. Golmohammadi, N. Pala, Silicon nanorods-based all-dielectric waveguides with long decay-length at the telecommunication band, Journal of Numerical Modeling 29, 530 (2016). [Link]
34. A. Ahmadivand, S. Golmohammadi, N. Pala, Silicon nanorods-based all-dielectric waveguides with long decay-length at the telecommunication band, Journal of Numerical Modeling 29, 530 (2016). [Link]
33. A. Ahmadivand, S. Golmohammadi, Ultrathin broadband antireflection structure composed of multilayer hollow nanopillar arrays of c-Si and Ag shells embedded in GaAs a substrate, Optik 127, 815 (2016). [Link]
33. A. Ahmadivand, S. Golmohammadi, Ultrathin broadband antireflection structure composed of multilayer hollow nanopillar arrays of c-Si and Ag shells embedded in GaAs a substrate, Optik 127, 815 (2016). [Link]
2015
2015
32. A. Ahmadivand, N. Pala, D. Ö. Güney, Enhancement of photothermal heat generation by metallodielectric nanoplasmonic clusters, Optics Express 23, A682 (2015). [Link]
32. A. Ahmadivand, N. Pala, D. Ö. Güney, Enhancement of photothermal heat generation by metallodielectric nanoplasmonic clusters, Optics Express 23, A682 (2015). [Link]
31. A. Ahmadivand, M. Karabiyik, N. Pala, Inducing multiple Fano resonant modes in split concentric nanoring resonator dimers for ultraprecise sensing, Journal of Optics 17, 085104 (2015). [Link]
31. A. Ahmadivand, M. Karabiyik, N. Pala, Inducing multiple Fano resonant modes in split concentric nanoring resonator dimers for ultraprecise sensing, Journal of Optics 17, 085104 (2015). [Link]
30. S. Golmohammadi, A. Ahmadivand, N. Pala, Fano resonances in nanoshell clusters deposited on a multilayer substrate of β-SiC/SiO2/Si to design high quality plasmonic sensors, Journal of Lightwave Technology 33, 2817 (2015). [Link]
30. S. Golmohammadi, A. Ahmadivand, N. Pala, Fano resonances in nanoshell clusters deposited on a multilayer substrate of β-SiC/SiO2/Si to design high quality plasmonic sensors, Journal of Lightwave Technology 33, 2817 (2015). [Link]
29. A. Ahmadivand, N. Pala, Localization, hybridization, and coupling of plasmon resonances in an aluminum nanomatryushka, Plasmonics 10, 809 (2015). [Link]
29. A. Ahmadivand, N. Pala, Localization, hybridization, and coupling of plasmon resonances in an aluminum nanomatryushka, Plasmonics 10, 809 (2015). [Link]
28. A. Ahmadivand, M. Karabiyik, N. Pala, Fano-like resonances in split concentric nanoshell dimers in designing negative-index metamaterials for bio/chemical sensing and spectroscopic purposes, Applied Spectroscopy 69, 563 (2015). [Link]
28. A. Ahmadivand, M. Karabiyik, N. Pala, Fano-like resonances in split concentric nanoshell dimers in designing negative-index metamaterials for bio/chemical sensing and spectroscopic purposes, Applied Spectroscopy 69, 563 (2015). [Link]
27. A. Ahmadivand, R. Sinha, N. Pala, Hybridized plasmon resonant modes in molecular metallodielectric quad-triangles nanoantenna, Optics Communications 355, 103 (2015). [Link]
27. A. Ahmadivand, R. Sinha, N. Pala, Hybridized plasmon resonant modes in molecular metallodielectric quad-triangles nanoantenna, Optics Communications 355, 103 (2015). [Link]
26. A. Ahmadivand, N. Pala, Multiple coil-type Fano resonances in all-dielectric antisymmetric quadrumers, Optical & Quantum Electronics 47, 2055 (2015). [Link]
26. A. Ahmadivand, N. Pala, Multiple coil-type Fano resonances in all-dielectric antisymmetric quadrumers, Optical & Quantum Electronics 47, 2055 (2015). [Link]
25. A. Ahmadivand, S. Golmohammadi, N. Pala, Fano resonances in plasmonic aluminum nanoparticle clusters for precise gas detection: An ultrasensitivity to the minor environmental refractive index perturbations, Photonics & Nanostructures 13, 97 (2015). [Link]
25. A. Ahmadivand, S. Golmohammadi, N. Pala, Fano resonances in plasmonic aluminum nanoparticle clusters for precise gas detection: An ultrasensitivity to the minor environmental refractive index perturbations, Photonics & Nanostructures 13, 97 (2015). [Link]
24. A. Ahmadivand, S. Golmohammadi, M. Karabiyik, N. Pala, Self-assembled silicon-based clusters to design efficient, fast and controllable Fanoswitches, Microwave Optical Technology Letters 57(5), 1242 (2015). [Link]
24. A. Ahmadivand, S. Golmohammadi, M. Karabiyik, N. Pala, Self-assembled silicon-based clusters to design efficient, fast and controllable Fanoswitches, Microwave Optical Technology Letters 57(5), 1242 (2015). [Link]
23. A. Ahmadivand, N. Pala, Plasmon resonance hybridization in self-assembled copper nanoparticles clusters: A way toward efficient and precise LSPR sensing based on Fano resonances, Applied Spectroscopy 69, 277 (2015). [Link]
23. A. Ahmadivand, N. Pala, Plasmon resonance hybridization in self-assembled copper nanoparticles clusters: A way toward efficient and precise LSPR sensing based on Fano resonances, Applied Spectroscopy 69, 277 (2015). [Link]
22. A. Ahmadivand, N. Pala, Tailoring the negative-refractive index metamaterials composed of semiconductor-metal-semiconductor gold ring/disk cavity heptamers to support strong Fano resonances in the visible spectrum, J. Opt. Soc. Am. A 32, 204 (2015). [Link]
22. A. Ahmadivand, N. Pala, Tailoring the negative-refractive index metamaterials composed of semiconductor-metal-semiconductor gold ring/disk cavity heptamers to support strong Fano resonances in the visible spectrum, J. Opt. Soc. Am. A 32, 204 (2015). [Link]
21. A. Ahmadivand, S. Golmohammadi, M. Karabiyik, N. Pala, Fano resonances in complex plasmonic necklaces composed of gold nanodisks clusters for enhanced LSPR sensing, IEEE Sensors Journal 15, 1588 (2015). [Link]
21. A. Ahmadivand, S. Golmohammadi, M. Karabiyik, N. Pala, Fano resonances in complex plasmonic necklaces composed of gold nanodisks clusters for enhanced LSPR sensing, IEEE Sensors Journal 15, 1588 (2015). [Link]
20. A. Ahmadivand, S. Golmohammadi, Surface plasmon resonances and plasmon hybridization in compositional Al/Al2O3/SiO2 nanorings at the UV spectrum to the near infrared region (NIR), Optics & Laser Technology 66, 9 (2015). [Link]
20. A. Ahmadivand, S. Golmohammadi, Surface plasmon resonances and plasmon hybridization in compositional Al/Al2O3/SiO2 nanorings at the UV spectrum to the near infrared region (NIR), Optics & Laser Technology 66, 9 (2015). [Link]
19. A. Ahmadivand, S. Golmohammadi, N. Pala, Electromagnetic wave propagation along T and Y-splitters composed of silicon nanorods, gold slot, and silica substrate, Optics Communications 343, 73 (2015). [Link]
19. A. Ahmadivand, S. Golmohammadi, N. Pala, Electromagnetic wave propagation along T and Y-splitters composed of silicon nanorods, gold slot, and silica substrate, Optics Communications 343, 73 (2015). [Link]
18. A. Ahmadivand, M. Karabiyik, N. Pala, Intensifying magnetic dark modes in the antisymmetric plasmonic quadrumer composed of Al/Al2O3 nanodisks with the placement of silicon nanospheres, Optics Communications 338, 218 (2015). [Link]
18. A. Ahmadivand, M. Karabiyik, N. Pala, Intensifying magnetic dark modes in the antisymmetric plasmonic quadrumer composed of Al/Al2O3 nanodisks with the placement of silicon nanospheres, Optics Communications 338, 218 (2015). [Link]
17. A. Ahmadivand, S. Golmohammadi, Ultra-compact (1×2) Y-Shape optical power divider based on novel configuration of cylindrical Au nanorod and shell nanoparticles, Indian Journal of Physics 89, 81 (2015). [Link]
17. A. Ahmadivand, S. Golmohammadi, Ultra-compact (1×2) Y-Shape optical power divider based on novel configuration of cylindrical Au nanorod and shell nanoparticles, Indian Journal of Physics 89, 81 (2015). [Link]
16. A. Ahmadivand, S. Golmohammadi, Fano resonances in complex plasmonic super-nanoclusters: The effect of environmental modifications on the LSPR sensitivity, Frontiers of Physics 10, 104201 (2015). [Link]
16. A. Ahmadivand, S. Golmohammadi, Fano resonances in complex plasmonic super-nanoclusters: The effect of environmental modifications on the LSPR sensitivity, Frontiers of Physics 10, 104201 (2015). [Link]
2014
2014
15. S. Golmohammadi, A. Ahmadivand, Fano resonances in compositional clusters of aluminum nanodisks at the UV spectrum: A route to design efficient biochemical sensors, Plasmonics 9, 1447 (2014). [Link]
15. S. Golmohammadi, A. Ahmadivand, Fano resonances in compositional clusters of aluminum nanodisks at the UV spectrum: A route to design efficient biochemical sensors, Plasmonics 9, 1447 (2014). [Link]
14. A. Ahmadivand, S. Golmohammadi, Electromagnetic plasmon propagation and coupling through the gold nanoshell heptamers: A route to design telecommunication photonic structures, Applied Optics 53, 3832 (2014). [Link]
14. A. Ahmadivand, S. Golmohammadi, Electromagnetic plasmon propagation and coupling through the gold nanoshell heptamers: A route to design telecommunication photonic structures, Applied Optics 53, 3832 (2014). [Link]
13. A. Ahmadivand, N. Pala, Plasmon response of a metal-semiconductor-multilayer 4π-spiral as a negative index metamaterial, Journal of Nanoparticle Research 16, 2764 (2014). [Link]
13. A. Ahmadivand, N. Pala, Plasmon response of a metal-semiconductor-multilayer 4π-spiral as a negative index metamaterial, Journal of Nanoparticle Research 16, 2764 (2014). [Link]
12. A. Ahmadivand, S. Golmohammadi, Optimized plasmonic configurations: Adjacent and merging regimes between two Au rod/shell nano-arrangements for plasmonic sensing and spectroscopic purposes, Journal of Nanoparticle Research 16, 2491 (2014). [Link]
12. A. Ahmadivand, S. Golmohammadi, Optimized plasmonic configurations: Adjacent and merging regimes between two Au rod/shell nano-arrangements for plasmonic sensing and spectroscopic purposes, Journal of Nanoparticle Research 16, 2491 (2014). [Link]
11. S. Golmohammadi, Y. Khalilou, A. Ahmadivand, Plasmonics: A route to design an optical demultiplexer based on gold nanoring arrays to operate at near infrared region (NIR), Optics Communications 321, 56 (2014). [Link]
11. S. Golmohammadi, Y. Khalilou, A. Ahmadivand, Plasmonics: A route to design an optical demultiplexer based on gold nanoring arrays to operate at near infrared region (NIR), Optics Communications 321, 56 (2014). [Link]
10. A. Ahmadivand, S. Golmohammadi, Comprehensive investigation of noble metal nanoparticles shape, size and material on the optical response of optimal plasmonic Y-splitter waveguides, Optics Communications 310, 1 (2014). [Link]
10. A. Ahmadivand, S. Golmohammadi, Comprehensive investigation of noble metal nanoparticles shape, size and material on the optical response of optimal plasmonic Y-splitter waveguides, Optics Communications 310, 1 (2014). [Link]
9. A. Ahmadivand, Hybrid photonic-plasmonic polarization beam splitter (HPPPBS) based on metal-silica-silicon interactions, Optical & Laser Technology 58, 145 (2014). [Link]
9. A. Ahmadivand, Hybrid photonic-plasmonic polarization beam splitter (HPPPBS) based on metal-silica-silicon interactions, Optical & Laser Technology 58, 145 (2014). [Link]
8. A. Ahmadivand, S. Golmohammadi, Compositional arrangement of rod/shell nanoparticles: An approach to provide efficient plasmon waveguides, Optoelectronics Reviews 22, 101 (2014). [Link]
8. A. Ahmadivand, S. Golmohammadi, Compositional arrangement of rod/shell nanoparticles: An approach to provide efficient plasmon waveguides, Optoelectronics Reviews 22, 101 (2014). [Link]
7. A. Ahmadivand, Ultra-compact hybrid plasmonic-photonic coupler: Configuration of metal-silica-silicon, Optical & Quantum Electronics 46, 1039 (2014). [Link]
7. A. Ahmadivand, Ultra-compact hybrid plasmonic-photonic coupler: Configuration of metal-silica-silicon, Optical & Quantum Electronics 46, 1039 (2014). [Link]
6. A. Ahmadivand, S. Golmohammadi, Gold shell nanoclusters networks in designing four-branch (1×4) optical power splitters, J. Opt. Soc. Korea 38, 274 (2014). [Link]
6. A. Ahmadivand, S. Golmohammadi, Gold shell nanoclusters networks in designing four-branch (1×4) optical power splitters, J. Opt. Soc. Korea 38, 274 (2014). [Link]
6. A. Ahmadivand, Analysis of arm spacing in symmetric and asymmetric Y-shape optical power splitters: plasmonic interactions between gold rings, Optica Applicata 44, 123 (2014). [Link]
6. A. Ahmadivand, Analysis of arm spacing in symmetric and asymmetric Y-shape optical power splitters: plasmonic interactions between gold rings, Optica Applicata 44, 123 (2014). [Link]
5. A. Ahmadivand, S. Golmohammadi, Plasmonics: Absorption and scattering of light at non-straight ordered array of Au nanorings, Optik 125, 3514 (2014). [Link]
5. A. Ahmadivand, S. Golmohammadi, Plasmonics: Absorption and scattering of light at non-straight ordered array of Au nanorings, Optik 125, 3514 (2014). [Link]
2013
2013
4. A. Ahmadivand, S. Golmohammadi, Electro-optic wavelength switching device for plasmon waveguides based on ordered arrays of Au nanorings, Optik 124, 2743 (2013). [Link]
4. A. Ahmadivand, S. Golmohammadi, Electro-optic wavelength switching device for plasmon waveguides based on ordered arrays of Au nanorings, Optik 124, 2743 (2013). [Link]
3. A. Ahmadivand, S. Golmohammadi, A. Rostami, Broad comparison between Au nanospheres, nanorods and nanorings as an S-bend plasmon waveguide at optical C-band spectrum, Journal of Optical Technology 80, 15 (2013). [Link]
3. A. Ahmadivand, S. Golmohammadi, A. Rostami, Broad comparison between Au nanospheres, nanorods and nanorings as an S-bend plasmon waveguide at optical C-band spectrum, Journal of Optical Technology 80, 15 (2013). [Link]
2012
2012
2. A. Ahmadivand, Routing properties of T-structure based on Au/SiO2 nanoring in optical nanophotonic devices, Optica Applicata 42, 659 (2012). [Link]
2. A. Ahmadivand, Routing properties of T-structure based on Au/SiO2 nanoring in optical nanophotonic devices, Optica Applicata 42, 659 (2012). [Link]
1. A. Ahmadivand, S. Golmohammadi, A. Rostami, T and Y-splitters based on Au/SiO2 nanoring chain at an optical communication band, Applied Optics 51, 2784 (2012). [Link]
1. A. Ahmadivand, S. Golmohammadi, A. Rostami, T and Y-splitters based on Au/SiO2 nanoring chain at an optical communication band, Applied Optics 51, 2784 (2012). [Link]
Conference Proceedings & Publications
Conference Proceedings & Publications
15. B. Akin, A. Ahmadivand, S. Altindal, Design, fabrication, and characterization of a dielectric multilayer broadband infrared meta-absorber, IEEE International Conference on Electromagnetics in Advanced Applications (ICEAA) (2021).
15. B. Akin, A. Ahmadivand, S. Altindal, Design, fabrication, and characterization of a dielectric multilayer broadband infrared meta-absorber, IEEE International Conference on Electromagnetics in Advanced Applications (ICEAA) (2021).
14. L. Cui, Y. Zhu, M. Abbasi, A. Ahmadivand, B. Gerislioglu, P. Nordlander, D. Natelson, Hot-carrier induced above-threshold light emission in plasmonic tunnel junctions, Bulletin of the American Physical Society (2021).
14. L. Cui, Y. Zhu, M. Abbasi, A. Ahmadivand, B. Gerislioglu, P. Nordlander, D. Natelson, Hot-carrier induced above-threshold light emission in plasmonic tunnel junctions, Bulletin of the American Physical Society (2021).
13. L. Cui, Y. Zhu, M. Abbasi, A. Ahmadivand, B. Gerislioglu, P. Nordlander, M. Di Ventra, D. Natelson, Hot-carrier induced giant above-threshold light emission enhancement in plasmonic tunnel junctions, Bulletin of the American Physical Society, Denver, CO (2020).
13. L. Cui, Y. Zhu, M. Abbasi, A. Ahmadivand, B. Gerislioglu, P. Nordlander, M. Di Ventra, D. Natelson, Hot-carrier induced giant above-threshold light emission enhancement in plasmonic tunnel junctions, Bulletin of the American Physical Society, Denver, CO (2020).
12. B. Ostovar, Y. Cai, A. Ahmadivand, R. Zhang, L. Tauzin, P. Nordlander, S. Link , Exploring size dependency of hot carrier generation through interband and intraband transitions in gold nanorods, Abstracts of Papers of the American Chemical Society, Washington, DC (2019).
12. B. Ostovar, Y. Cai, A. Ahmadivand, R. Zhang, L. Tauzin, P. Nordlander, S. Link , Exploring size dependency of hot carrier generation through interband and intraband transitions in gold nanorods, Abstracts of Papers of the American Chemical Society, Washington, DC (2019).
11. D. Renard, S. Tian, B. Clark, A. Ahmadivand, C. Desantis, P. Nordlander, N. Halas , Aqueous stability and SERS activity of polydopamine functionalized aluminum nanocrystals, Abstracts of Papers of the American Chemical Society, Washington, DC (2019).
11. D. Renard, S. Tian, B. Clark, A. Ahmadivand, C. Desantis, P. Nordlander, N. Halas , Aqueous stability and SERS activity of polydopamine functionalized aluminum nanocrystals, Abstracts of Papers of the American Chemical Society, Washington, DC (2019).
10. A. Ahmadivand, Deep Ultraviolet light generation using plasmonic toroidal meta-atoms, Smalley-Curl Institute Symp. Rice University, Houston, TX (2019).
10. A. Ahmadivand, Deep Ultraviolet light generation using plasmonic toroidal meta-atoms, Smalley-Curl Institute Symp. Rice University, Houston, TX (2019).
9. A. Ahmadivand, P. Nordlander, Controlling the interplay between Fano and toroidal resonances in phase-change material-mediated nanoantennas to develop functional plasmonic switches, Gordon Res. Conf. Grand Summit Hotel, ME (2018).
9. A. Ahmadivand, P. Nordlander, Controlling the interplay between Fano and toroidal resonances in phase-change material-mediated nanoantennas to develop functional plasmonic switches, Gordon Res. Conf. Grand Summit Hotel, ME (2018).
8. A. Ahmadivand, B. Gerislioglu, N. Pala, Targeted protein detection using gold nanosphere-based functionalized plasmonic toroidal terahertz metamaterials, MRS Proc. Boston, MA (2017).
8. A. Ahmadivand, B. Gerislioglu, N. Pala, Targeted protein detection using gold nanosphere-based functionalized plasmonic toroidal terahertz metamaterials, MRS Proc. Boston, MA (2017).
7. A. Ahmadivand, R. Sinha, M. Karabiyik, B. Gerislioglu, N. Pala, Probing charge transfer plasmons in metallic Koch-type antennas across the terahertz domain, MRS Proc. Boston, MA (2016).
7. A. Ahmadivand, R. Sinha, M. Karabiyik, B. Gerislioglu, N. Pala, Probing charge transfer plasmons in metallic Koch-type antennas across the terahertz domain, MRS Proc. Boston, MA (2016).
6. R. Sinha, P. K. Vabbina, A. Ahmadivand, M. Karabiyik, B. Gerislioglu, N. Pala, Ultraviolet LED based compact and fast cortisol detector with ultra-high sensitivity, IEEE Sensors Conf. Orlando, FL (2016).
6. R. Sinha, P. K. Vabbina, A. Ahmadivand, M. Karabiyik, B. Gerislioglu, N. Pala, Ultraviolet LED based compact and fast cortisol detector with ultra-high sensitivity, IEEE Sensors Conf. Orlando, FL (2016).
5. A. Ahmadivand, M. Karabiyik, R. Sinha, B. Gerislioglu, N. Pala, Tunable terahertz response of plasmonic vee-shaped assemblies with a graphene monolayer, PIERS, Shanghai, China (2016).
5. A. Ahmadivand, M. Karabiyik, R. Sinha, B. Gerislioglu, N. Pala, Tunable terahertz response of plasmonic vee-shaped assemblies with a graphene monolayer, PIERS, Shanghai, China (2016).
4. A. Ahmadivand, R. Sinha, S. Kaya, M. Karabiyik, N. Pala, Fractal aluminum Cayley trees to design a plasmonic ultraviolet photodetector, SPIE Symp. Proc. Baltimore, Maryland, 98362Y (2016).
4. A. Ahmadivand, R. Sinha, S. Kaya, M. Karabiyik, N. Pala, Fractal aluminum Cayley trees to design a plasmonic ultraviolet photodetector, SPIE Symp. Proc. Baltimore, Maryland, 98362Y (2016).
3. A. Ahmadivand, R. Sinha, N. Pala, Inducing ultra-sharp Fano resonant modes in graphene coated symmetric nanoring oligomers, SPIE Symp. Proc. San Diego, CA, 9547 (2015).
3. A. Ahmadivand, R. Sinha, N. Pala, Inducing ultra-sharp Fano resonant modes in graphene coated symmetric nanoring oligomers, SPIE Symp. Proc. San Diego, CA, 9547 (2015).
2. A. Ahmadivand, N. Pala, Multiple Fano resonances in plasmonic metamaterials composed of Al/Al2O3 nanomatryushka structures, MRS Proc. San Francisco, CA, 1788 (2015).
2. A. Ahmadivand, N. Pala, Multiple Fano resonances in plasmonic metamaterials composed of Al/Al2O3 nanomatryushka structures, MRS Proc. San Francisco, CA, 1788 (2015).
1. A. Ahmadivand, S. Golmohammadi, Plasmonics: Ultracompact 1×4 Y-splitter based on cylindrical Au nano rod inside shell configuration, Asian Symp. Electromag. Photon. Eng. Proc. Tabriz, Iran, 229 (2013).
1. A. Ahmadivand, S. Golmohammadi, Plasmonics: Ultracompact 1×4 Y-splitter based on cylindrical Au nano rod inside shell configuration, Asian Symp. Electromag. Photon. Eng. Proc. Tabriz, Iran, 229 (2013).
Patents
Patents
3. M. Semmlinger, M. L. Tseng, J. Yang, M. Zhang, D. P. Tsai, L. Dong, A. Ahmadivand, P. Nordlander, N. J. Halas, Harmonic light-generating metasurface, US Patent App. 17/281,814 (2022).
3. M. Semmlinger, M. L. Tseng, J. Yang, M. Zhang, D. P. Tsai, L. Dong, A. Ahmadivand, P. Nordlander, N. J. Halas, Harmonic light-generating metasurface, US Patent App. 17/281,814 (2022).
2. A. Ahmadivand, Raju Sinha, B. Gerislioglu, N. Pala, Sensor platform based on toroidal resonances for rapid detection of biomolecules, US 10,288,563 (2019).
2. A. Ahmadivand, Raju Sinha, B. Gerislioglu, N. Pala, Sensor platform based on toroidal resonances for rapid detection of biomolecules, US 10,288,563 (2019).
- N. Pala, B. Gerislioglu, A. Ahmadivand, M. Karabiyik, Phase-change material based reconfigurable antenna, US 9,923,267 (2018).
Books
Books
· A. Ahmadivand, B. Gerislioglu, Z. Ramezani, Toroidal Metamaterials: Fundamentals, Devices, and Applications, Springer Nature ISBN: 978-3-030-58287-6. [Link]
· A. Ahmadivand, B. Gerislioglu, Z. Ramezani, Toroidal Metamaterials: Fundamentals, Devices, and Applications, Springer Nature ISBN: 978-3-030-58287-6. [Link]
· A. Ahmadivand, M. Karabiyik, & N. Pala, In Photodetectors: Materials, Devices and Applications in Communications and Imaging Technologies (Chapter 6): Plasmonic Photodetectors, Woodhead Publishing, Elsevier, ISBN: 978-1-78242-468-0 (2015).
· A. Ahmadivand, M. Karabiyik, & N. Pala, In Photodetectors: Materials, Devices and Applications in Communications and Imaging Technologies (Chapter 6): Plasmonic Photodetectors, Woodhead Publishing, Elsevier, ISBN: 978-1-78242-468-0 (2015).