1. M. Singh (2021-22); Lecture notes on Orthogonal Functions, Fourier Analysis and Complex Analysis [ISBN # 9781119867975] (Willey Custom, Toronto, Canada), pages 190.
2. M. Singh (2017-18); Physics in your daily life, [Second Edition & ISBN # 9781119552451] (Willey Custom, Toronto, Canada), pages 488.
3. M. Singh (2016-17), Physics in Your Daily Life, [First Edition & ISBN # 9781119466169] (Willey Custom, Toronto, Canada) 412pp.
4. M. Singh (2016-17): Electronic, Photonic, Polaritonic, and Plasmonic, Nanomaterials [First Edition & ISBN # 9781119265962] (Willey Custom, Toronto, Canada) 412pp.
5. M. Singh (2016), Applications of Quantum Mechanics, [ISBN # 9781119266978] (Willey Custom, Toronto, Canada) (182 pages).
6. M. Singh (2015), Advanced Quantum Physics, [0000 Edition & ISBN # 9781119231820] (Willey Custom, Toronto, Canada), 280pp.
7. M. Singh (2015), Advanced Quantum Physics, [ISBN # 978111903840] (Willey Custom, Toronto, Canada), 280pp.
8. M. Singh (2014), Modern Topics in Material Science, [ISBN # 9781118900727] (Willey Custom, Toronto, Canada), 280pp.
9. M. Singh (Editor) (2014): Electronic, Photonic, Plasmonic, Phononic and Magnetic Properties of Nanomaterials [ISBN # 978073541222-A] (AIP Publishing, Melville, New York 2014) (277pp).
10. M. Singh (2013), Electronic, Photonic, Polaritonic, and Plasmonic Materials, (John Willey and Sons, Inc. (Willey Custom), Toronto, Canada, 2013) (314pp).
11. M. Singh (Editor) (2013): Frontier Topics in Nanostructures and Condensed Matter Theory (Proceedings of NCMT 2011) (315pp).
12. M. Singh (2012-13) Nanostructures and nanomaterials (Western Book Store, 2012, 3rd edition). ~300 pages (non-refereed).
13. M. Singh (2012-13) Selected topics in condensed matter physics (Western Book Store, 2012, 2nd edition). ~273 pages (non-refereed).
14. M. Singh (2011-12) Selected topics in condensed matter physics (Western Book Store, 2011, First edition). ~150 pages (non-refereed).
15. M. Singh (2010-11) Fundamentals of nanostructures and nanotechnology (Western Book Store, 2010). ~400 pages (non-refereed).
16. M. Singh (2009–10) Advanced Quantum Physics. Suitable for undergraduate Quantum Mechanics (Western Book Store, 2009). 373 pages (non-refereed).
17. M. Singh and R. Lipson (eds., 2009) Transport and optical properties of nanomaterials (American Institute of Physics, Melville, New York, 2009). 546 pages (refereed).
18. M. Singh and G. Gumbd (eds., 2009) The study of nanomaterials (American Institute of Physics, Melville, New York, 2013). 350 pages (refereed).
19. M. Singh (2008–09) Physical Properties of Materials (revised). Suitable for undergraduate students (Western Book Store, 2009). 240 pages(non-refereed).
20. M. Singh (2007–08) Physical Properties of Materials. Suitable for undergraduate students (Western Book Store, 2008). 225 pages (non-refereed).
21. M. Singh (2007–08) Modern Quantum Mechanical Methods (revised). Suitable for graduate students (Western Book Store, 2008). 305 pages (non-refereed).
22. M. Singh (2006–07) Lecture Notes on Quantum Mechanics. Suitable for Graduate students and researchers. 251 pages (non-refereed).
23. M. Singh (2005–07) Lecture Notes on Engineered Materials. Suitable for undergraduate and graduate students and researchers working in engineered materials. 304 pages (non-refereed).
24. M. Singh (2004) Advanced Quantum Statistics (Tulasi High Tech Co., London). Suitable for undergraduate and graduate students and researchers working in physical and biological sciences. 287 pages (non-refereed).
25. M. Singh (2004) Modern Statistical Mechanics (Tulasi High Tech Co., London). Suitable for undergraduate and graduate students and researchers working in physical and biological sciences. 245 pages (non-refereed).
1. M. Singh (2007) “Simulation of the dipole-dipole interaction in nonlinear photonic crystals doped with nanoparticles.” Proc. of ICCMSE 2007 (AIP, USA) 805-808.
2. M. Singh (2004) “Quantum coherence and interference phenomena in photonic band gap materials, SP
1. Manda, Chandra Sekhar and Mahi R. Singh, Electrochemical processing of Nickel nanoparticles and nanowires without using complex surfactants, templates, and reagents. J. Appl. Phys. (submitted, 2023).
2. Sergey Yastrebov and Mahi R Singh (2023) , Effective medium theory and application to optical properties of amorphous carbon modified with copper in optical wavelength range, Technical Physics Letters (2023).
3. Mahi R Singh, (June 2023), Study of Stimulated Brillouin Scattering in Plasmonic Nanohybrids Containing Ensemble of Metallic Nanorods’ , Ann. der Phys. (2023).
4. Grant Brassem Mahi R Singh and Sergey Yastrebov (March 2023), Transient Study of Photoluminescence in Nanowaveguides doped with Quantum Emitters and Metallic Nanoparticles, Nanotechnology (2023).
5. Mahi R Singh, Xintong Jiang, and Sergey Yastrebov (May 2023), Study of Bragg Scattering in the Presence of Dipole-Dipole Interactions in Plasmonic Nanohybrids, Photonics and Nanostructures (2023).
6. Mahi R Singh (20203), The Effect of Dipole-Dipole Interaction on Stimulated Raman Scattering in Plasmonic Nanohybrids, J. Chem. Phys. (in press 2023).
7. Innokentii Istomin, Sergey Yastrebov, Mahi R. Singh, Splitting of the Mie-Fröhlich resonance in amorphous carbon modified with copper nanoclusters, Diamond and Related Materials, 136, 2023, 109962 (2023).).
8. Spear, N. J.; Yan, Y.; Queen, J. M.; Singh, M. R.; Macdonald, J. E.; Haglund, R. F., Surface Plasmon Mediated Harmonically Resonant Effects on Third Harmonic Generation from Au & CuS Nanoparticle Films, Nanophotonics 2023, 12, 273-284 (2023).
9. Zaky A. Zaky, Mahi R. Singh and Arafa H. Aly, Tamm resonance excited by different metals and graphene, Photonics and Nanostructures - Fundamentals and Applications, 49, 100995 (2022).
10. Mahi R. Singh, S. Parihar, Sergey Yastrebov, and Vladimir Ivanov-Omskii, Photocurrent in plasmonic nanofibers, J. Optical Soc. America B 39, 248-257 (2022).
11. S. G. Yastrebov, I. E. Istomin, M. Singh (2022), Localization of light in polymer films modified with nanoclusters metal oxides, Izvestiya technologicheskogo Instituta, 2022 V 62 N 88 pp 25-29
12. Mahi R Singh and Ningyan Fang, Power generation due to Kerr nonlinearity in quantum dots doped in metallic nanoshells. Solid State Comm. 336, 114397 (2021).
13. Ivanov-Omskii V.I., Istomin I.E., Singh M., Yastrebov S.G., Localization of light by inhomogeneous film, Technical Physics Letters 47, 14-17 (2021).
14. Mahi R Singh, Grant Brassem and S. G. Yastrebov, Enhancement of Radiative and Nonradiative Emission in Random Lasing Plasmonic Nanofibers, Ann. Phys. 533, 2000558 (9p) (2021).
15. Mahi R Singh, Grant Brassem and S. G. Yastrebov, Study of Quantum yield in plasmonic waveguides, Nanotechnology 32, 135207 (2021).
16. F. Sun and Mahi R Singh, Modelling of Piezoelectric Power Nano-Generators Using Brownian Particles, Journal of Intelligent Material Systems and Structures Journal of Intelligent Material Systems and Structures, 32 (7), 724-732 (2021).
17. V.I.Ivanov-Omskii, I.E Istomin., O.E. Babkin, L.A. Babkina, T.N. Vasilevskaya, K.V. Izotova, Mahi Singh, S.G. Yastrebov, Localization of light in an epoxy-acrylic composite polymer modified with ZnO nanoclusters. Technical Physics 47, 41-45 (2021).
18. Mahi R Singh, Patrick Persaud and Grant Brassem, Study of Plasmonics in Nanofibers Doped with Metallic Nanoparticles and Quantum Dots, Phys. Rev. A102, 063704 (2020).
19. Mahi R Singh (2020), ‘Theory of All-optical Switching Based on Kerr Nonlinearity in Metallic Nanohybrids’, Phys. Rev. A102, 013708 (10 pages) (2020).
20. Mahi R Singh and Sergey Yastrebov, Switching and Sensing Using Kerr Nonlinearity in Quantum Dots Doped in Metallic Nanoshells, J. Phys. Chem. C124, 12065-12074, 2020.
21. Mahi R. Singh and Patrick D. Persaud (2020), Dipole−dipole Interaction in two-photon spectroscopy of metallic nanohybrids J. Phys. Chem. C. (2020), 124, 6311-6320 (2020).
22. Mahi R. Singh and Patrick D. Persaud, Sergey Yastrebov (2020), A study of Two-Photon Florescence in Metallic Nanoshells. Nanotechnology: 31, 265203 (2020).
23. Patrick D. Persaud and Mahi R Singh (2020), The Effect of Dipole-Dipole Interactions on the One-Photon and Two-Photon Photoluminescence in an Ensemble of Quantum Dots Doped in a Polymer Matrix, J. Opt. Soc. Am, b37, 3672-3680 (2020).
24. Xiaobo Han, Kai Wang, Patrick Persaud, Xiangyuan Xing, Weiwei Liu, Hua Long, Fang Li, Bing Wang, Mahi R. Singh and Peixiang Lu (2020), Harmonic Resonance Enhanced Second-Harmonic Generation in Monolayer WS2-Ag Nanocavity. ACS Photonics 7, 562-568 (2020).
25. S. G. Yastrebov, I. E. Istomin, M. Singh (2020), Nanocomposites, including those based on polymers and carbon structures Absorption of electromagnetic radiation by amorphous carbon modified with metals. Letters to Journal of Technical Physics (2020).
26. Mahi R Singh, Jiaohan Guo1, Elisabetta Fanizza and Madan Dubey (2018), ‘Photoluminescence and Absorption in Core-shell Quantum Emitter Surrounded by Ensemble of Metallic Nanoparticles’, J. Phys. Chem. C123, 10013-10020 (2019)
27. Arafa H. Aly1 & Ayman A. Ameen2 & Hussein A. Elsayed1 & S. H. Mohamed2 & Mahi R. Singh3, One-Dimensional Metallo-Superconductor Photonic Crystals as a Smart Window. Journal of Superconductivity and Novel Magnetism https://doi.org/10.1007/s10948-018-4978-z
28. Mahi R. Singh, Jiaohan Guo, and Jing Chen, Theoretical Study of Fluorescence Spectroscopy of Quantum Emitters Coupled with Plasmonic Dimers and Trimers, J. Phys. Chem. C 2019, 123, 17483−17490.
29. Mahi R Singh, K. Black* (2018), ‘Anomalous dipole-dipole interaction between ensemble of quantum emitters in metallic nanoparticle hybrids’, J. Phys. Chem. C 122, 26584−26591(2019).
30. Mahi R. Singh, J. Guo*, J.M. Jorge Cid*, B. Bhadoria, P.C, Sharma and J.H. Martínez (2018), Phonon Conductivity of Nanoparticles Embedded in Dielectric Material’, Phys. Stat. Solidi (b) 255, issue 8, 1700681 (2018).
31. J. Guo*, K. Black*. J. Hu and Mahi R Singh (2018),’ Study of plasmonics in hybrids made from a quantum emitter and double metallic nanoshell dimmer’, J. Phys.: Condens. Matter 30 185301, (2018).
32. Mahi R. Singh, M. Chandra Sekhar*, S. Balakrishnan*, and S. Masood* (2017), ’Medical Applications of Hybrids made from Quantum Emitter and Metallic Nanoshell’, J. Appl. Phys. 122, 034306 (2017).
33. Mahi R. Singh, Jiaohan Guo* and G. Gumbs (2017),’Phonon transport in nanocomposites’, Phys. Stat. Sol. B 254, 1700142 (2017).
34. Mahi R. Singh, Jiaohan Guo*, J.M. Jorge Cid*, J. E. H. Martínez (2017),’ Control of fluorescence in quantum emitter and metallic nanoshell hybrids for medical applications, J. Appl. Phys. 121, 094303-1-8 (2017).
35. M. Brzozowski* and Mahi R. Singh (2017), ‘Photoluminescence quenching in quantum emitter, metallic nanoparticle and graphene hybrids’, Plasmonics 12:1021–1028 (2017).
36. Mahi R Singh, Kieffer Davieau* and J. L Carson (2016), ‘Effect of quantum interference on absorption of light in metamaterial hybrids’, J. Phys. D: Appl. Phys. 49, 445103 (7pp) (2016)
37. S. Balakrishnan*, M. Najiminaini*, Mahi R. Singh and J. Carson (2016),’A study of angle dependent surface plasmon polaritons in nano-hole array structures’, J. Appl. Phys. 120, 034302-1-7 (2016).
38. Mahi R. Singh, M. J. Brzozowski*and B. Apter (2016), Effect of phonon-plasmon and surface plasmon polaritons on the energy absorption in quantum dot and graphene nanocomposite deposited on polar crystals.’ J. Appl. Phys. 120, 124308 (2016).
39. M. Singh and C. Racknor (2015), ‘Nonlinear energy transfer in quantum dot and metallic nanorod nanocomposites,’ J. Opt. Soc. Am. B 32, 2216-2222 (2015).
40. M. Tabatabaei, M. Najiminaini, K. Davieau, B. Kaminska, M. Singh, J. Carson, F. Lagugné-Labarthet (2015),’Tunable 3D plasmonic cavity nanosensors for surface-enhanced Raman spectroscopy with sub-femtomolar limit of detection" ACS Photonics 2, 752–759 (2015).
41. Mahi R. Singh, M. Najiminaini, S. Balakrishnan, J. J. L. Carson (2015), ‘Light scattering by metallic nano-hole structures,’ J. Appl. Physics 117, 184302 (2015).
42. M. Singh and C. Racknor (2015), ‘A study of polaritonic transparency in couplers made from excitonic materials,’ J. Appl. Physics 117, 103102 (2015).
43. D. Schindel and Mahi R. Singh (2015), ‘A study of energy absorption rate in a quantum dot and metallic nanosphere hybrid system,’ J. Phys. Condens. Matter 27, 345301 (8pp).
44. Mahi R. Singh, Chris Racknor and Marek Brzozowski (2015), “Surface plasmon polariton and dipole-dipole interaction induced transparencies in metamaterial waveguides doped with quantum dots,” J. Phys. D: Appl. Phys. 48, 145301 (2015).
45. M. Singh, J. Cox and M. Brzozowski (2014), Photoluminescence enhancement in metamaterial heterostructures, J. Phys. D: Applied Physics 47, 085101 (7 pages).
46. M. Singh and S. Balakrishanan, (2014) ‘Simulations of optical sensors fabricated from metallic rods couplers,’ Electronic, Photonic, Plasmonic, Phononic and Magnetic Properties of Nanomaterials (AIP Publishing, Melville, New York 2014) 271-274.
47. M. Antón, F. Carreño, S. Melle, O. Calderón, E. Cabrera-Granado, J. Cox, M. Singh and A. Egatz-Gomez (2014), Plasmon-enhanced terahertz emission in self-assembled quantum dots by femtosecond pulses, J. Appl. Physics 115, 064304 (11pp).
48. D. Schindel and M. Singh (2014), ‘Fluorescence from a quantum dots and metallic nanosphere hybrid system,’ Electronic, Photonic, Plasmonic, Phononic and Magnetic Properties of Nanomaterials (AIP Publishing, Melville, New York 2014) 178-188.
49. C. Racknor, M. Singh, Y. Zhang, D. Birch, and Y. Chen (2014), Photonic sensing mechanism in DNA dye nanocomposites, Methods Appl. Fluoresc. 2, 015002 (6pp).