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ALARCON, Júlio Cesar Picolo. A neural network-aided microwave sensing approach for qualitative and quantitative analysis of adulteration in extra virgin olive oil. 2024. Dissertação (Mestrado) – Universidade de São Paulo, São Carlos, 2024. Disponível em: https://www.teses.usp.br/teses/disponiveis/18/18155/tde-09092024-101534/. Acesso em: 16 jan. 2025.
APA
Alarcon, J. C. P. (2024). A neural network-aided microwave sensing approach for qualitative and quantitative analysis of adulteration in extra virgin olive oil (Dissertação (Mestrado). Universidade de São Paulo, São Carlos. Recuperado de https://www.teses.usp.br/teses/disponiveis/18/18155/tde-09092024-101534/
NLM
Alarcon JCP. A neural network-aided microwave sensing approach for qualitative and quantitative analysis of adulteration in extra virgin olive oil [Internet]. 2024 ;[citado 2025 jan. 16 ] Available from: https://www.teses.usp.br/teses/disponiveis/18/18155/tde-09092024-101534/
Vancouver
Alarcon JCP. A neural network-aided microwave sensing approach for qualitative and quantitative analysis of adulteration in extra virgin olive oil [Internet]. 2024 ;[citado 2025 jan. 16 ] Available from: https://www.teses.usp.br/teses/disponiveis/18/18155/tde-09092024-101534/
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RAZA, Ali et al. Ultra-wideband patch antenna with inhomogeneous artificial magnetic conductor and nearly constant radiation pattern for breast tumor detection. IEEE Antennas and Wireless Propagation Letters, p. 1-5, 2024Tradução . . Disponível em: https://dx.doi.org/10.1109/LAWP.2024.3436559. Acesso em: 16 jan. 2025.
APA
Raza, A., Souza, M. I. de O., Liaqat, M., Pepino, V. M., & Borges, B. -H. V. (2024). Ultra-wideband patch antenna with inhomogeneous artificial magnetic conductor and nearly constant radiation pattern for breast tumor detection. IEEE Antennas and Wireless Propagation Letters, 1-5. doi:10.1109/LAWP.2024.3436559
NLM
Raza A, Souza MI de O, Liaqat M, Pepino VM, Borges B-HV. Ultra-wideband patch antenna with inhomogeneous artificial magnetic conductor and nearly constant radiation pattern for breast tumor detection [Internet]. IEEE Antennas and Wireless Propagation Letters. 2024 ; 1-5.[citado 2025 jan. 16 ] Available from: https://dx.doi.org/10.1109/LAWP.2024.3436559
Vancouver
Raza A, Souza MI de O, Liaqat M, Pepino VM, Borges B-HV. Ultra-wideband patch antenna with inhomogeneous artificial magnetic conductor and nearly constant radiation pattern for breast tumor detection [Internet]. IEEE Antennas and Wireless Propagation Letters. 2024 ; 1-5.[citado 2025 jan. 16 ] Available from: https://dx.doi.org/10.1109/LAWP.2024.3436559
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GOMES, Naomy Duarte et al. Rydberg atom-based microwave electrometry using polarization spectroscopy. Journal of Physics B, v. No 2024, n. 23, p. 235502-1-235502-12, 2024Tradução . . Disponível em: https://doi.org/10.1088/1361-6455/ad8a34. Acesso em: 16 jan. 2025.
APA
Gomes, N. D., Pepino, V. M., Borges, B. -H. V., Magalhães, D. V., Napolitano, R. de J., Torres, M. A. L., et al. (2024). Rydberg atom-based microwave electrometry using polarization spectroscopy. Journal of Physics B, No 2024( 23), 235502-1-235502-12. doi:10.1088/1361-6455/ad8a34
NLM
Gomes ND, Pepino VM, Borges B-HV, Magalhães DV, Napolitano R de J, Torres MAL, Kondo JDM, Marcassa LG. Rydberg atom-based microwave electrometry using polarization spectroscopy [Internet]. Journal of Physics B. 2024 ; No 2024( 23): 235502-1-235502-12.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1088/1361-6455/ad8a34
Vancouver
Gomes ND, Pepino VM, Borges B-HV, Magalhães DV, Napolitano R de J, Torres MAL, Kondo JDM, Marcassa LG. Rydberg atom-based microwave electrometry using polarization spectroscopy [Internet]. Journal of Physics B. 2024 ; No 2024( 23): 235502-1-235502-12.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1088/1361-6455/ad8a34
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SOUZA, Mateus Isaac de Oliveira et al. Microwave glucose sensing using double circular split ring resonators for improved sensitivity: the role of artificial blood plasma and deionized water. IEEE Sensors Journal, 2024Tradução . . Acesso em: 16 jan. 2025.
APA
Souza, M. I. de O., Santos, N. M., Alarcon, J. C., Varanda, L. C., Pepino, V. M., & Borges, B. -H. V. (2024). Microwave glucose sensing using double circular split ring resonators for improved sensitivity: the role of artificial blood plasma and deionized water. IEEE Sensors Journal. doi:10.1109/JSEN.2024.3516571
NLM
Souza MI de O, Santos NM, Alarcon JC, Varanda LC, Pepino VM, Borges B-HV. Microwave glucose sensing using double circular split ring resonators for improved sensitivity: the role of artificial blood plasma and deionized water. IEEE Sensors Journal. 2024 ;[citado 2025 jan. 16 ]
Vancouver
Souza MI de O, Santos NM, Alarcon JC, Varanda LC, Pepino VM, Borges B-HV. Microwave glucose sensing using double circular split ring resonators for improved sensitivity: the role of artificial blood plasma and deionized water. IEEE Sensors Journal. 2024 ;[citado 2025 jan. 16 ]
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ALARCON, Júlio Cesar Picolo et al. Identification and quantification of common adulterants in extra virgin olive oil using microwave dielectric spectroscopy aided by feedforward neural networks. IEEE Sensors Journal, p. 1-11, 2024Tradução . . Disponível em: https://dx.doi.org/ 10.1109/JSEN.2024.3448221. Acesso em: 16 jan. 2025.
APA
Alarcon, J. C. P., Souza, M. I. de O., Pepino, V. M., & Borges, B. -H. V. (2024). Identification and quantification of common adulterants in extra virgin olive oil using microwave dielectric spectroscopy aided by feedforward neural networks. IEEE Sensors Journal, 1-11. doi:10.1109/JSEN.2024.3448221
NLM
Alarcon JCP, Souza MI de O, Pepino VM, Borges B-HV. Identification and quantification of common adulterants in extra virgin olive oil using microwave dielectric spectroscopy aided by feedforward neural networks [Internet]. IEEE Sensors Journal. 2024 ; 1-11.[citado 2025 jan. 16 ] Available from: https://dx.doi.org/ 10.1109/JSEN.2024.3448221
Vancouver
Alarcon JCP, Souza MI de O, Pepino VM, Borges B-HV. Identification and quantification of common adulterants in extra virgin olive oil using microwave dielectric spectroscopy aided by feedforward neural networks [Internet]. IEEE Sensors Journal. 2024 ; 1-11.[citado 2025 jan. 16 ] Available from: https://dx.doi.org/ 10.1109/JSEN.2024.3448221
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
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ALARCON, Julio C. P. et al. Identification and quantification of common adulterants in extra virgin olive oil using microwave dielectric spectroscopy aided by feedforward neural networks. IEEE Sensors Journal, p. 1-11, 2024Tradução . . Disponível em: http://dx.doi.org/10.1109/JSEN.2024.3448221. Acesso em: 16 jan. 2025.
APA
Alarcon, J. C. P., Souza, M. I. de O., Pepino, V. M., & Borges, B. -H. V. (2024). Identification and quantification of common adulterants in extra virgin olive oil using microwave dielectric spectroscopy aided by feedforward neural networks. IEEE Sensors Journal, 1-11. doi:10.1109/JSEN.2024.3448221
NLM
Alarcon JCP, Souza MI de O, Pepino VM, Borges B-HV. Identification and quantification of common adulterants in extra virgin olive oil using microwave dielectric spectroscopy aided by feedforward neural networks [Internet]. IEEE Sensors Journal. 2024 ; 1-11.[citado 2025 jan. 16 ] Available from: http://dx.doi.org/10.1109/JSEN.2024.3448221
Vancouver
Alarcon JCP, Souza MI de O, Pepino VM, Borges B-HV. Identification and quantification of common adulterants in extra virgin olive oil using microwave dielectric spectroscopy aided by feedforward neural networks [Internet]. IEEE Sensors Journal. 2024 ; 1-11.[citado 2025 jan. 16 ] Available from: http://dx.doi.org/10.1109/JSEN.2024.3448221
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KONDO, Jorge Douglas Massayuki et al. Improving electric field sensitivity by combining electromagnetically induced transparency, polarization spectroscopy, and microwave 3D printed lenses using hot vapor of Rydberg atoms as fundamental atomic sensors. Bulletin of the American Physical Society. College Park: Escola de Engenharia de São Carlos, Universidade de São Paulo. Disponível em: https://meetings-aps.ez67.periodicos.capes.gov.br/Meeting/DAMOP23/Session/K10.4. Acesso em: 16 jan. 2025. , 2023
APA
Kondo, J. D. M., Gomes, N. D., Pepino, V. M., Borges, B. -H. V., Magalhães, D. V., & Marcassa, L. G. (2023). Improving electric field sensitivity by combining electromagnetically induced transparency, polarization spectroscopy, and microwave 3D printed lenses using hot vapor of Rydberg atoms as fundamental atomic sensors. Bulletin of the American Physical Society. College Park: Escola de Engenharia de São Carlos, Universidade de São Paulo. Recuperado de https://meetings-aps.ez67.periodicos.capes.gov.br/Meeting/DAMOP23/Session/K10.4
NLM
Kondo JDM, Gomes ND, Pepino VM, Borges B-HV, Magalhães DV, Marcassa LG. Improving electric field sensitivity by combining electromagnetically induced transparency, polarization spectroscopy, and microwave 3D printed lenses using hot vapor of Rydberg atoms as fundamental atomic sensors [Internet]. Bulletin of the American Physical Society. 2023 ; 68( 7):[citado 2025 jan. 16 ] Available from: https://meetings-aps.ez67.periodicos.capes.gov.br/Meeting/DAMOP23/Session/K10.4
Vancouver
Kondo JDM, Gomes ND, Pepino VM, Borges B-HV, Magalhães DV, Marcassa LG. Improving electric field sensitivity by combining electromagnetically induced transparency, polarization spectroscopy, and microwave 3D printed lenses using hot vapor of Rydberg atoms as fundamental atomic sensors [Internet]. Bulletin of the American Physical Society. 2023 ; 68( 7):[citado 2025 jan. 16 ] Available from: https://meetings-aps.ez67.periodicos.capes.gov.br/Meeting/DAMOP23/Session/K10.4
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Quantum Technologies for São Paulo, Brazil, and Latin America. . São Paulo: International Centre for Theoretical Physics, ICTP, South American Institute for Fundamental Research, SAIFR. . Acesso em: 16 jan. 2025. , 2023
APA
Quantum Technologies for São Paulo, Brazil, and Latin America. (2023). Quantum Technologies for São Paulo, Brazil, and Latin America. São Paulo: International Centre for Theoretical Physics, ICTP, South American Institute for Fundamental Research, SAIFR.
NLM
Quantum Technologies for São Paulo, Brazil, and Latin America. 2023 ;[citado 2025 jan. 16 ]
Vancouver
Quantum Technologies for São Paulo, Brazil, and Latin America. 2023 ;[citado 2025 jan. 16 ]
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PEPINO, Vinicius Marrara. Metamaterials and metasurfaces for wavefront shaping and dispersion management. 2023. Tese (Doutorado) – Universidade de São Paulo, São Carlos, 2023. Disponível em: https://www.teses.usp.br/teses/disponiveis/18/18155/tde-06112023-171908/. Acesso em: 16 jan. 2025.
APA
Pepino, V. M. (2023). Metamaterials and metasurfaces for wavefront shaping and dispersion management (Tese (Doutorado). Universidade de São Paulo, São Carlos. Recuperado de https://www.teses.usp.br/teses/disponiveis/18/18155/tde-06112023-171908/
NLM
Pepino VM. Metamaterials and metasurfaces for wavefront shaping and dispersion management [Internet]. 2023 ;[citado 2025 jan. 16 ] Available from: https://www.teses.usp.br/teses/disponiveis/18/18155/tde-06112023-171908/
Vancouver
Pepino VM. Metamaterials and metasurfaces for wavefront shaping and dispersion management [Internet]. 2023 ;[citado 2025 jan. 16 ] Available from: https://www.teses.usp.br/teses/disponiveis/18/18155/tde-06112023-171908/
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ARRUDA, Guilherme S. et al. Fourier control of air modes in high-Q metasurfaces. Advanced Optical Materials, 2023Tradução . . Disponível em: http://dx.doi.org/10.1002/adom.202301563. Acesso em: 16 jan. 2025.
APA
Arruda, G. S., Pepino, V. M., Borges, B. -H. V., & Martins, E. R. (2023). Fourier control of air modes in high-Q metasurfaces. Advanced Optical Materials. doi:10.1002/adom.202301563
NLM
Arruda GS, Pepino VM, Borges B-HV, Martins ER. Fourier control of air modes in high-Q metasurfaces [Internet]. Advanced Optical Materials. 2023 ;[citado 2025 jan. 16 ] Available from: http://dx.doi.org/10.1002/adom.202301563
Vancouver
Arruda GS, Pepino VM, Borges B-HV, Martins ER. Fourier control of air modes in high-Q metasurfaces [Internet]. Advanced Optical Materials. 2023 ;[citado 2025 jan. 16 ] Available from: http://dx.doi.org/10.1002/adom.202301563
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KONDO, Jorge Douglas Massayuki et al. Aprimoramento de medidas de campos microondas átomos de Rydberg em células quentes. 2023, Anais.. São Carlos: Instituto de Física de São Carlos - IFSC, 2023. Disponível em: https://repositorio.usp.br/directbitstream/ef2f150b-d90d-443a-ab80-563aafbee1a8/PROD035527_3180106.pdf. Acesso em: 16 jan. 2025.
APA
Kondo, J. D. M., Magalhães, D. V., Borges, B. -H. V., Pepino, V. M., Marcassa, L. G., & Gomes, N. D. (2023). Aprimoramento de medidas de campos microondas átomos de Rydberg em células quentes. In Livro de Resumos. São Carlos: Instituto de Física de São Carlos - IFSC. Recuperado de https://repositorio.usp.br/directbitstream/ef2f150b-d90d-443a-ab80-563aafbee1a8/PROD035527_3180106.pdf
NLM
Kondo JDM, Magalhães DV, Borges B-HV, Pepino VM, Marcassa LG, Gomes ND. Aprimoramento de medidas de campos microondas átomos de Rydberg em células quentes [Internet]. Livro de Resumos. 2023 ;[citado 2025 jan. 16 ] Available from: https://repositorio.usp.br/directbitstream/ef2f150b-d90d-443a-ab80-563aafbee1a8/PROD035527_3180106.pdf
Vancouver
Kondo JDM, Magalhães DV, Borges B-HV, Pepino VM, Marcassa LG, Gomes ND. Aprimoramento de medidas de campos microondas átomos de Rydberg em células quentes [Internet]. Livro de Resumos. 2023 ;[citado 2025 jan. 16 ] Available from: https://repositorio.usp.br/directbitstream/ef2f150b-d90d-443a-ab80-563aafbee1a8/PROD035527_3180106.pdf
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PEPINO, Vinicius Marrara e MOTA, Achiles Fontana da e BORGES, Ben-Hur Viana. Experimental demonstration of passive microwave pulse amplifcation via temporal Talbot efect. Scientific Reports, v. 13, p. 1-11, 2023Tradução . . Disponível em: https://doi.org/10.1038/s41598-023-42361-1. Acesso em: 16 jan. 2025.
APA
Pepino, V. M., Mota, A. F. da, & Borges, B. -H. V. (2023). Experimental demonstration of passive microwave pulse amplifcation via temporal Talbot efect. Scientific Reports, 13, 1-11. doi:10.1038/s41598-023-42361-1
NLM
Pepino VM, Mota AF da, Borges B-HV. Experimental demonstration of passive microwave pulse amplifcation via temporal Talbot efect [Internet]. Scientific Reports. 2023 ; 13 1-11.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1038/s41598-023-42361-1
Vancouver
Pepino VM, Mota AF da, Borges B-HV. Experimental demonstration of passive microwave pulse amplifcation via temporal Talbot efect [Internet]. Scientific Reports. 2023 ; 13 1-11.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1038/s41598-023-42361-1
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GOUNELLA, Rodrigo Henrique et al. A low-cost instrument for multidimensional characterization of advanced wireless communication technologies. Applied Sciences, v. 13, n. 11, p. 1-19, 2023Tradução . . Disponível em: https://doi.org/10.3390/app13116581. Acesso em: 16 jan. 2025.
APA
Gounella, R. H., Martins, A., Pepino, V. M., Borges, B. -H. V., & Carmo, J. P. P. do. (2023). A low-cost instrument for multidimensional characterization of advanced wireless communication technologies. Applied Sciences, 13( 11), 1-19. doi:10.3390/app13116581
NLM
Gounella RH, Martins A, Pepino VM, Borges B-HV, Carmo JPP do. A low-cost instrument for multidimensional characterization of advanced wireless communication technologies [Internet]. Applied Sciences. 2023 ; 13( 11): 1-19.[citado 2025 jan. 16 ] Available from: https://doi.org/10.3390/app13116581
Vancouver
Gounella RH, Martins A, Pepino VM, Borges B-HV, Carmo JPP do. A low-cost instrument for multidimensional characterization of advanced wireless communication technologies [Internet]. Applied Sciences. 2023 ; 13( 11): 1-19.[citado 2025 jan. 16 ] Available from: https://doi.org/10.3390/app13116581
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MARTINS, Augusto et al. Fundamental limits and design principles of doublet metalenses. Nanophotonics, v. 11, n. 6, p. 1187-1194, 2022Tradução . . Disponível em: https://doi.org/10.1515/nanoph-2021-0770. Acesso em: 16 jan. 2025.
APA
Martins, A., Juntao, L., Borges, B. -H. V., Krauss, T. F., & Martins, E. R. (2022). Fundamental limits and design principles of doublet metalenses. Nanophotonics, 11( 6), 1187-1194. doi:10.1515/nanoph-2021-0770
NLM
Martins A, Juntao L, Borges B-HV, Krauss TF, Martins ER. Fundamental limits and design principles of doublet metalenses [Internet]. Nanophotonics. 2022 ; 11( 6): 1187-1194.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1515/nanoph-2021-0770
Vancouver
Martins A, Juntao L, Borges B-HV, Krauss TF, Martins ER. Fundamental limits and design principles of doublet metalenses [Internet]. Nanophotonics. 2022 ; 11( 6): 1187-1194.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1515/nanoph-2021-0770
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MARTINS, Augusto et al. Correction of aberrations via polarization in single layer metalenses. Advanced Optical Materials. Weinheim, Germany: Wiley-VCH Verlag. Disponível em: https://doi.org/10.1002/adom.202102555. Acesso em: 16 jan. 2025. , 2022
APA
Martins, A., Kezheng, L., Arruda, G. S., Conteduca, D., Haowen, L., Juntao, L., et al. (2022). Correction of aberrations via polarization in single layer metalenses. Advanced Optical Materials. Weinheim, Germany: Wiley-VCH Verlag. doi:10.1002/adom.202102555
NLM
Martins A, Kezheng L, Arruda GS, Conteduca D, Haowen L, Juntao L, Borges B-HV, Krauss TF, Martins ER. Correction of aberrations via polarization in single layer metalenses [Internet]. Advanced Optical Materials. 2022 ;[citado 2025 jan. 16 ] Available from: https://doi.org/10.1002/adom.202102555
Vancouver
Martins A, Kezheng L, Arruda GS, Conteduca D, Haowen L, Juntao L, Borges B-HV, Krauss TF, Martins ER. Correction of aberrations via polarization in single layer metalenses [Internet]. Advanced Optical Materials. 2022 ;[citado 2025 jan. 16 ] Available from: https://doi.org/10.1002/adom.202102555
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
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MARTINS, Augusto. Metasurfaces for control of light propagation and diffractive optics applications. 2021. Tese (Doutorado) – Universidade de São Paulo, São Carlos, 2021. Disponível em: https://www.teses.usp.br/teses/disponiveis/18/18155/tde-17032021-115322/. Acesso em: 16 jan. 2025.
APA
Martins, A. (2021). Metasurfaces for control of light propagation and diffractive optics applications (Tese (Doutorado). Universidade de São Paulo, São Carlos. Recuperado de https://www.teses.usp.br/teses/disponiveis/18/18155/tde-17032021-115322/
NLM
Martins A. Metasurfaces for control of light propagation and diffractive optics applications [Internet]. 2021 ;[citado 2025 jan. 16 ] Available from: https://www.teses.usp.br/teses/disponiveis/18/18155/tde-17032021-115322/
Vancouver
Martins A. Metasurfaces for control of light propagation and diffractive optics applications [Internet]. 2021 ;[citado 2025 jan. 16 ] Available from: https://www.teses.usp.br/teses/disponiveis/18/18155/tde-17032021-115322/
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
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PEPINO, Vinicius Marrara et al. Fano-assisted tunable X-band microwave ring resonator. IEEE Transactions on Microwave Theory and Techniques, v. 69, n. 4, p. 2155-2164, 2021Tradução . . Disponível em: https://doi.org/10.1109/TMTT.2021.3059651. Acesso em: 16 jan. 2025.
APA
Pepino, V. M., Mota, A. F. da, Martins, A., Martins, E. R., Borges, B. -H. V., & Teixeira, F. L. (2021). Fano-assisted tunable X-band microwave ring resonator. IEEE Transactions on Microwave Theory and Techniques, 69( 4), 2155-2164. doi:10.1109/TMTT.2021.3059651
NLM
Pepino VM, Mota AF da, Martins A, Martins ER, Borges B-HV, Teixeira FL. Fano-assisted tunable X-band microwave ring resonator [Internet]. IEEE Transactions on Microwave Theory and Techniques. 2021 ; 69( 4): 2155-2164.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1109/TMTT.2021.3059651
Vancouver
Pepino VM, Mota AF da, Martins A, Martins ER, Borges B-HV, Teixeira FL. Fano-assisted tunable X-band microwave ring resonator [Internet]. IEEE Transactions on Microwave Theory and Techniques. 2021 ; 69( 4): 2155-2164.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1109/TMTT.2021.3059651
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
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MARTINS, Augusto et al. Band shaping and emission control via waveguide plasmon polaritons. Physical Review B, v. 103, p. 205423-1 - 205423-7, 2021Tradução . . Disponível em: https://doi.org/10.1103/PhysRevB.103.205423. Acesso em: 16 jan. 2025.
APA
Martins, A., Abass, A., Borges, B. -H. V., & Martins, E. R. (2021). Band shaping and emission control via waveguide plasmon polaritons. Physical Review B, 103, 205423-1 - 205423-7. doi:10.1103/PhysRevB.103.205423
NLM
Martins A, Abass A, Borges B-HV, Martins ER. Band shaping and emission control via waveguide plasmon polaritons [Internet]. Physical Review B. 2021 ; 103 205423-1 - 205423-7.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1103/PhysRevB.103.205423
Vancouver
Martins A, Abass A, Borges B-HV, Martins ER. Band shaping and emission control via waveguide plasmon polaritons [Internet]. Physical Review B. 2021 ; 103 205423-1 - 205423-7.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1103/PhysRevB.103.205423
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
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SOUZA, Mateus Isaac de Oliveira et al. Multi-purpose microwave biosensor based on signal encoding technique and microfluidics for improved sensitivity. IEEE Sensors Journal, v. 21, n. 4, p. 4571-4581, 2021Tradução . . Disponível em: https://doi.org/10.1109/JSEN.2020.3033970. Acesso em: 16 jan. 2025.
APA
Souza, M. I. de O., Mota, A. F. da, Pepino, V. M., Carmo, J. P. P. do, & Borges, B. -H. V. (2021). Multi-purpose microwave biosensor based on signal encoding technique and microfluidics for improved sensitivity. IEEE Sensors Journal, 21( 4), 4571-4581. doi:10.1109/JSEN.2020.3033970
NLM
Souza MI de O, Mota AF da, Pepino VM, Carmo JPP do, Borges B-HV. Multi-purpose microwave biosensor based on signal encoding technique and microfluidics for improved sensitivity [Internet]. IEEE Sensors Journal. 2021 ; 21( 4): 4571-4581.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1109/JSEN.2020.3033970
Vancouver
Souza MI de O, Mota AF da, Pepino VM, Carmo JPP do, Borges B-HV. Multi-purpose microwave biosensor based on signal encoding technique and microfluidics for improved sensitivity [Internet]. IEEE Sensors Journal. 2021 ; 21( 4): 4571-4581.[citado 2025 jan. 16 ] Available from: https://doi.org/10.1109/JSEN.2020.3033970