سه شنبه، 29 اسفند 1402 تماس با ما نقشه سایت صفحه اصلی English
 
 
 
 
     

مقالات چاپ شده در مجلات:

 

 

[34] M. Rahimi, A. Bahrami, “Phononic Crystal Sensor-Demultiplexer for Detection of Benzene Isomers,” Optik 287 (2023). (Elsevier)

[33] M. Ghoreshi, A. Bahrami. "Reciprocal invisibility cloaking with self-collimation effect of phononic crystals," Physica Scripta 98 (2023). (IOP)

[32] M. Zaremanesh, A. Bahrami, “Multilayer acoustic invisibility cloak based on composite lattice,” Scientific Reports 12 (2022). (Nature)

[31] F. Motaei, A. Bahrami, “Energy harvesting from sonic noises by phononic crystal fibers,” Scientific Reports 12 (2022). (Nature)

[30] F. Ahmadzadeh, A. Bahrami, “Mechanically Tuned Gradient-Index Phononic Crystal Lens,” Chinese Journal of Physics 77 (2022). (Elsevier)

[29] M. Ghoreshi, and A. Bahrami, “Acoustic invisibility cloak based on two-dimensional solid-fluid phononic crystals,” Solid State Communications 342 (2022). (Elsevier)

[28] A. Khaligh, A. Bahrami, and H. Badri-Ghavifekr, “Phononic crystal locally-resonant cavity for detecting vinegar acidity,” Journal of Molecular Liquids 343 (2021). (Elsevier)

[27] F. Motaei, and A. Bahrami, “An elastic fiber based on phononic crystals,” Scientific Reports 11 (2021)1-7. (Nature)

[26] S. Z. Aboutalebi, and A. Bahrami, “A proposal for four channel demultiplexer based on phoxonic crystal ring resonators,” Mechanics of Advanced Materials and Structures, (2021) 1-10. (Taylor and Francis)

[25] M. Alinejad, A. Bahrami, and H. Badri-Ghavifekr, “A proposal for three-channel hypersonic wave thermo-switch,” Indian Journal of Physics 95, no. 7 (2021) 1391-1399. (Springer)

[24] M. Zaremanesh, L. Carpentier, H. Gharibi, A. Bahrami, A. Mehaney, A. Gueddida, R. Lucklum, B. Djafari-Rouhani and Y. Pennec, “Temperature biosensor based on triangular lattice phononic crystals,” APL Materials 9, no. 6 (2021) 061114. (AIP)

[23] S. Z. Aboutalebi and A. Bahrami, “Opto-acoustical filter based on phoxonic crystal ring resonator,” Journal of Acoustical Engineering Society of Iran 8, no. 2 (2021) 36-43.

[22] A. Bahrami, M. Alinejad, and F. Motaei, “A proposal for 1×4 phononic switch/demultiplexer using composite lattices,” Solid State Communications 326 (2021) 114179. (Elsevier)

[21] M. Alinejad and A. Bahrami, “Two-channel ultrasonic switch based on two-dimensional fluid/fluid phononic crystals with composite lattices,” Physica Scripta 96, no. 1 (2020) 015702. (IOP)

[20] A. Mehaney, H. Gharibi, and A. Bahrami, “Phononic Eco-sensor for Detection of Heavy Metals Pollutions in Water with Spectrum Analyzer,” IEEE Sensors Journal 21 (2020) 6733 – 6740. (IEEE)

[19] H. Gharibi, A. Mehaney, and A. Bahrami, “High performance design for detecting NaI–water concentrations using a two-dimensional phononic crystal biosensor,” Journal of Physics D: Applied Physics 54, no. 1 (2020) 015304. (IOP)

[18] F. Motaei and A. Bahrami, “Nonlinear elastic switch based on solid–solid phononic crystals,” Journal of Materials Science 55, no. 21 (2020) 8983-8991. (Springer)

[17] M. Alinejad, A. Bahrami, and HB. Ghavifekr, “A proposal for three-channel hypersonic wave thermo-switch,” Indian Journal of Physics (2020) 1-9. (Springer)

[16] F. Motaei and A. Bahrami, “Two-channel all-elastic solid-solid phononic switch,” Physica Scripta 95, no. 6 (2020) 065703. (IOP)

[15] H. Gharibi and A. Bahrami, “Phononic crystals for sensing FAMEs with demultiplexed frequencies,” Journal of Molecular Liquids 305 (2020) 112841. (Elsevier)

[14] F. Motaei and A. Bahrami, “Eight-channel acoustic demultiplexer based on solid-fluid phononic crystals with hollow cylinders,” Photonics and Nanostructures-Fundamentals and Applications 39 (2020) 100765. (Elsevier)

[13] H. Gharibi, A. Khaligh, and A. Bahrami, “A very high sensitive interferometric phononic crystal liquid sensor,” Journal of Molecular Liquids 296 (2019) 111878. (Elsevier)

[12] M. Alinejad and A. Bahrami, “Ultrasonic Add/Drop Filter based on Two-Dimensional Solid/Fluid Phononic Crystals,” TABRIZ JOURNAL OF ELECTRICAL ENGINEERING 49, no. 3 (2019) 1185-1195. (TJEE)

[11] M. Alinejad and A. Bahrami, “Thermal switching of ultrasonic waves in two-dimensional solid/fluid phononic crystals,” Physica Scripta 94, no. 12 (2019) 125705. (IOP)

[10] P. Moradi and A. Bahrami, “Three channel GHz-ranged demultiplexer in solid-solid phononic crystals,” Chinese Journal of Physics 59 (2019) 291-297. (Elsevier)

[9] A. Bahrami, M. Dehdast, S. Mohammadnejad, and HB. Ghavifekr, “Delta-doped quantum wire tunnel junction for highly concentrated solar cells,” Chinese Physics B 28, no. 4 (2019) 046102. (IOP)

[8] A. Heydari, A. Bahrami, and A. Mahmoodi, “All-optical XOR, XNOR, NAND and OR logic gates based on photonic crystal 3-DB coupler for BPSK signals,” Journal of Optical Communications 1, no. ahead-of-print (2019). (DE Gruyter)

[7] H. Khalilzadeh, A. Bahrami, and HB. Ghavifekr, “MMI-based all-optical four-channel wavelength division demultiplexer,” Photonic Network Communications 36, no. 2 (2018) 217-223. (Springer)

[6] Z. Farrokhi, A. Bahrami, and S. Mohammadnejad, “Ultra-compact all-optical phase-controlled NAND, OR, XOR, XNOR, and NOT multi-function logic gate,” Optical and Quantum Electronics 50, no. 7 (2018) 1-8. (Springer)

[5] A. Heydari and A. Bahrami, “All Optical Half Adder Based on Photonic Crystals for BPSK Signals,” Optical and Quantum Electronics 50, no. 5 (2018) 1-9. (Springer)

[4] P. Moradi and A. Bahrami, “Design of an Optomechanical Filter Based on Solid/Solid Phoxonic Crystals,” Journal of Applied Physics 123, no. 11 (2018) 115113. (AIP)

[3] A. Bahrami, “Tunable All-Optical Switch/Demultiplexer Using Nonlinear MMI Waveguides,” Journal of Modern Optics 64 (2017) 1693-1698. (Taylor & Francis)

[2] M. Dehdast and A. Bahrami, “Design of all-optical simultaneous AND, NAND, OR, and NOR logic gates using phase-based control of three coupled waveguides,” Photonic Network Communications 33, no. 2 (2017) 136-142. (Springer)

[1] M. Dehdast, A. Bahrami, and S. Mohammadnejad, “A novel trapezoidal profile of optimized diffraction grating for light trapping in thin silicon solar cells,” Optica Applicata 47, no. 1 (2017) 75-83. (CEON)

 

 

 مقالات ارائه شده در کنفرانس ها:

 

[10] M. R. Rahimi, A. Bahrami, “Phononic Crystal Sensor for Detection of D2O Concentration in H2O_D2O Mixture,” The 12th International Conference on Acoustics and Vibration (ISAV), Iran 2022.

[9] F. Ahmadzadeh, A. Bahrami, “Tunable Acoustic Lenses based on Phononic Crystals,” The 12th International Conference on Acoustics and Vibration (ISAV), Iran 2022.

[8] L. Carpentier, A. Gueddida, M. Zaremanesh, H. Gharibi and A. Bahrami, “Phononic crystal for dynamic viscosity determination,” In Proc. of SPIE  2022.

[7] H. Gharibi, A. Bahrami, “NaI (Sodium Iodide)- Water concentrations as a High performance Biosensor based on 2D Solid- Fluid Phononic Crystals,” The 10th International Conference on Acoustics and Vibration (ISAV), Iran 2021.

[6] H. Gharibi, A. Bahrami, “Multi-Liquid Sensor Based on Solid-Fluid Phononic,” The 1th Iranian Conference on Microelectronics (ICMCONF), Iran 2019.

[5] M. Alinejad, A. Bahrami, “Thermal Ultrasonic 1× 2 Switch using Two-Dimensional Solid/Fluid Phononic Crystals,” The 8th International Conference on Acoustics and Vibration (ISAV), Iran 2018.

[4] M. Alinejad, A. Bahrami, “An ultrasonic 1×2 switch based on thermally tuned two-dimensional solid/solid phononic crystals,” in proceedings of The 24th Iranian Conference on Optics and Photonics (ICOP) and The 10th Iranian Conference on Photonics Engineering and Technology (ICPET), Iran 2018.

[3] P. Moradi, A. Bahrami, “Simultanoeus Guiding of Light and Acoustic Waves in the Phoxonic Crystals,” in proceedings of The 24th Iranian Conference on Optics and Photonics (ICOP) and The 10th Iranian Conference on Photonics Engineering and Technology (ICPET), Iran 2018.

[2] M. Esmaili, A. Bahrami, “Photonic Crystal Back Reflector for Efficiency Enhancement of Si-based Thin Film Solar Cells,” in proceedings of The International Conference on Fundamental Researches in Electrical Engineering (ICEEC), Iran 2017.

[1] A. Heydari, A. Bahrami, “All-Optical XOR and XNOR Logic Gates Based on Photonic Crystal 3-dB Couplers for BPSK Signals,” in proceedings of The 2nd National Conference on Interdisciplinary Researches In Computer, Electronics, Mechanics & Mechatronics Engineering (IRCEM), Iran 2017.

 

 

بازگشت به صفحه اصلی

       
صفحه اصلی | وب سایت دانشگاه صنعتی سهند | تماس با ما
دانشگاه صنعتی سهند ، دانشکده مهندسی برق - صندوق پستی: 1996-51335 | روابط عمومی: 3444322 0411 | info.ee@sut.ac.ir