Role of Relativistic Quantum Theory in Hadron Radiation Therapy

In recent years, the attention of scientists has been drawn to laser accelerators because they have a smaller size and more power than RT accelerators. But to upgrade these laser accelerators for hadron therapy, the theory governing these accelerators needs more investigation. The present paper repr...
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Autor*in:	Seyede Nasrin HoseiniMotlagh [verfasserIn] Neda Farhangkhah [verfasserIn] Mohammad Ghasemi Shabankareh [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2023

Schlagwörter:	keywords: carbon proton laser relativistic tissues quantum

Übergeordnetes Werk:	In: International Journal of Biophotonics and Biomedical Engineering - Islamic Azad University, Tabriz Branch, 2023, 3(2023), 1, Seite 11-28
Übergeordnetes Werk:	volume:3 ; year:2023 ; number:1 ; pages:11-28

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.30495/ijbbe.2023.1980428.1024

Katalog-ID:	DOAJ096815477

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allfields	10.30495/ijbbe.2023.1980428.1024 doi (DE-627)DOAJ096815477 (DE-599)DOAJ8bba6de63d194923bc827f123490d50f DE-627 ger DE-627 rakwb eng Seyede Nasrin HoseiniMotlagh verfasserin aut Role of Relativistic Quantum Theory in Hadron Radiation Therapy 2023 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier In recent years, the attention of scientists has been drawn to laser accelerators because they have a smaller size and more power than RT accelerators. But to upgrade these laser accelerators for hadron therapy, the theory governing these accelerators needs more investigation. The present paper represents the theory of laser-driven accelerators. Also, for the first time, we calculated the quantum relativistic important parameters such as the effective atomic number, z_eff, β=v⁄c , parameter, the density effect, δ⁄2, the shell effect,〖∆L〗_shell, Barkas effect, L_Barkas , Lynard Sorensen, effect, 〖∆L〗_LS, the standard perturbation function, L_stand, the first order general term of quantum perturbation theory, L_Pert, for proton and carbon beams in different energies versus the depth of penetration in the different human tissues using Maple programming, and our numerical results show that since the physical and chemical properties of carbon and hydrogen ions are not the same and carbon is heavier than hydrogen, carbon and hydrogen ion beams in hadron therapy do not have the same behavior inside the different human tissues. keywords: carbon proton laser relativistic tissues quantum Technology T Neda Farhangkhah verfasserin aut Mohammad Ghasemi Shabankareh verfasserin aut In International Journal of Biophotonics and Biomedical Engineering Islamic Azad University, Tabriz Branch, 2023 3(2023), 1, Seite 11-28 (DE-627)DOAJ090671090 29809037 nnns volume:3 year:2023 number:1 pages:11-28 https://doi.org/10.30495/ijbbe.2023.1980428.1024 kostenfrei https://doaj.org/article/8bba6de63d194923bc827f123490d50f kostenfrei https://ijbbo.tabriz.iau.ir/article_704552_2a0182f6815b31f06f1ca9cae993543b.pdf kostenfrei https://doaj.org/toc/2980-9037 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ GBV_ILN_62 AR 3 2023 1 11-28
spelling	10.30495/ijbbe.2023.1980428.1024 doi (DE-627)DOAJ096815477 (DE-599)DOAJ8bba6de63d194923bc827f123490d50f DE-627 ger DE-627 rakwb eng Seyede Nasrin HoseiniMotlagh verfasserin aut Role of Relativistic Quantum Theory in Hadron Radiation Therapy 2023 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier In recent years, the attention of scientists has been drawn to laser accelerators because they have a smaller size and more power than RT accelerators. But to upgrade these laser accelerators for hadron therapy, the theory governing these accelerators needs more investigation. The present paper represents the theory of laser-driven accelerators. Also, for the first time, we calculated the quantum relativistic important parameters such as the effective atomic number, z_eff, β=v⁄c , parameter, the density effect, δ⁄2, the shell effect,〖∆L〗_shell, Barkas effect, L_Barkas , Lynard Sorensen, effect, 〖∆L〗_LS, the standard perturbation function, L_stand, the first order general term of quantum perturbation theory, L_Pert, for proton and carbon beams in different energies versus the depth of penetration in the different human tissues using Maple programming, and our numerical results show that since the physical and chemical properties of carbon and hydrogen ions are not the same and carbon is heavier than hydrogen, carbon and hydrogen ion beams in hadron therapy do not have the same behavior inside the different human tissues. keywords: carbon proton laser relativistic tissues quantum Technology T Neda Farhangkhah verfasserin aut Mohammad Ghasemi Shabankareh verfasserin aut In International Journal of Biophotonics and Biomedical Engineering Islamic Azad University, Tabriz Branch, 2023 3(2023), 1, Seite 11-28 (DE-627)DOAJ090671090 29809037 nnns volume:3 year:2023 number:1 pages:11-28 https://doi.org/10.30495/ijbbe.2023.1980428.1024 kostenfrei https://doaj.org/article/8bba6de63d194923bc827f123490d50f kostenfrei https://ijbbo.tabriz.iau.ir/article_704552_2a0182f6815b31f06f1ca9cae993543b.pdf kostenfrei https://doaj.org/toc/2980-9037 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ GBV_ILN_62 AR 3 2023 1 11-28
allfields_unstemmed	10.30495/ijbbe.2023.1980428.1024 doi (DE-627)DOAJ096815477 (DE-599)DOAJ8bba6de63d194923bc827f123490d50f DE-627 ger DE-627 rakwb eng Seyede Nasrin HoseiniMotlagh verfasserin aut Role of Relativistic Quantum Theory in Hadron Radiation Therapy 2023 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier In recent years, the attention of scientists has been drawn to laser accelerators because they have a smaller size and more power than RT accelerators. But to upgrade these laser accelerators for hadron therapy, the theory governing these accelerators needs more investigation. The present paper represents the theory of laser-driven accelerators. Also, for the first time, we calculated the quantum relativistic important parameters such as the effective atomic number, z_eff, β=v⁄c , parameter, the density effect, δ⁄2, the shell effect,〖∆L〗_shell, Barkas effect, L_Barkas , Lynard Sorensen, effect, 〖∆L〗_LS, the standard perturbation function, L_stand, the first order general term of quantum perturbation theory, L_Pert, for proton and carbon beams in different energies versus the depth of penetration in the different human tissues using Maple programming, and our numerical results show that since the physical and chemical properties of carbon and hydrogen ions are not the same and carbon is heavier than hydrogen, carbon and hydrogen ion beams in hadron therapy do not have the same behavior inside the different human tissues. keywords: carbon proton laser relativistic tissues quantum Technology T Neda Farhangkhah verfasserin aut Mohammad Ghasemi Shabankareh verfasserin aut In International Journal of Biophotonics and Biomedical Engineering Islamic Azad University, Tabriz Branch, 2023 3(2023), 1, Seite 11-28 (DE-627)DOAJ090671090 29809037 nnns volume:3 year:2023 number:1 pages:11-28 https://doi.org/10.30495/ijbbe.2023.1980428.1024 kostenfrei https://doaj.org/article/8bba6de63d194923bc827f123490d50f kostenfrei https://ijbbo.tabriz.iau.ir/article_704552_2a0182f6815b31f06f1ca9cae993543b.pdf kostenfrei https://doaj.org/toc/2980-9037 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ GBV_ILN_62 AR 3 2023 1 11-28
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abstract	In recent years, the attention of scientists has been drawn to laser accelerators because they have a smaller size and more power than RT accelerators. But to upgrade these laser accelerators for hadron therapy, the theory governing these accelerators needs more investigation. The present paper represents the theory of laser-driven accelerators. Also, for the first time, we calculated the quantum relativistic important parameters such as the effective atomic number, z_eff, β=v⁄c , parameter, the density effect, δ⁄2, the shell effect,〖∆L〗_shell, Barkas effect, L_Barkas , Lynard Sorensen, effect, 〖∆L〗_LS, the standard perturbation function, L_stand, the first order general term of quantum perturbation theory, L_Pert, for proton and carbon beams in different energies versus the depth of penetration in the different human tissues using Maple programming, and our numerical results show that since the physical and chemical properties of carbon and hydrogen ions are not the same and carbon is heavier than hydrogen, carbon and hydrogen ion beams in hadron therapy do not have the same behavior inside the different human tissues.
abstractGer	In recent years, the attention of scientists has been drawn to laser accelerators because they have a smaller size and more power than RT accelerators. But to upgrade these laser accelerators for hadron therapy, the theory governing these accelerators needs more investigation. The present paper represents the theory of laser-driven accelerators. Also, for the first time, we calculated the quantum relativistic important parameters such as the effective atomic number, z_eff, β=v⁄c , parameter, the density effect, δ⁄2, the shell effect,〖∆L〗_shell, Barkas effect, L_Barkas , Lynard Sorensen, effect, 〖∆L〗_LS, the standard perturbation function, L_stand, the first order general term of quantum perturbation theory, L_Pert, for proton and carbon beams in different energies versus the depth of penetration in the different human tissues using Maple programming, and our numerical results show that since the physical and chemical properties of carbon and hydrogen ions are not the same and carbon is heavier than hydrogen, carbon and hydrogen ion beams in hadron therapy do not have the same behavior inside the different human tissues.
abstract_unstemmed	In recent years, the attention of scientists has been drawn to laser accelerators because they have a smaller size and more power than RT accelerators. But to upgrade these laser accelerators for hadron therapy, the theory governing these accelerators needs more investigation. The present paper represents the theory of laser-driven accelerators. Also, for the first time, we calculated the quantum relativistic important parameters such as the effective atomic number, z_eff, β=v⁄c , parameter, the density effect, δ⁄2, the shell effect,〖∆L〗_shell, Barkas effect, L_Barkas , Lynard Sorensen, effect, 〖∆L〗_LS, the standard perturbation function, L_stand, the first order general term of quantum perturbation theory, L_Pert, for proton and carbon beams in different energies versus the depth of penetration in the different human tissues using Maple programming, and our numerical results show that since the physical and chemical properties of carbon and hydrogen ions are not the same and carbon is heavier than hydrogen, carbon and hydrogen ion beams in hadron therapy do not have the same behavior inside the different human tissues.
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title_short	Role of Relativistic Quantum Theory in Hadron Radiation Therapy
url	https://doi.org/10.30495/ijbbe.2023.1980428.1024 https://doaj.org/article/8bba6de63d194923bc827f123490d50f https://ijbbo.tabriz.iau.ir/article_704552_2a0182f6815b31f06f1ca9cae993543b.pdf https://doaj.org/toc/2980-9037
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author2	Neda Farhangkhah Mohammad Ghasemi Shabankareh
author2Str	Neda Farhangkhah Mohammad Ghasemi Shabankareh
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doi_str	10.30495/ijbbe.2023.1980428.1024
up_date	2024-07-03T22:27:04.011Z
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