Изчислителен капацитет на пирамидалните неврони в мозъчната кора

Електрическите дейности на пирамидалните неврони в мозъчната кора се поддържат от структурно стабилни, морфологично комплексни аксонално-дендритни дървета. Анатомичните разлики между аксоните и дендритите по отношение на тяхната дължина или калибър отразяват съответните функционални специализации, съответно за приемане или предаване на неврална информация. За да се оцени правилно изчислителната способност на пирамидалните неврони в мозъчната кора, различните морфометрични мерки на техните аксони и дендрити трябва да бъдат точно определени количествено от налични триизмерни дигитални реконструкции.

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Публикации

Статии

  1. Iva Georgieva, Elisabeth Beaunoyer and Matthieu J Guitton. Ensuring social acceptability of technological tracking in the COVID-19 context. Computers in Human Behavior 116:106639, 2021. DOI BibTeX

    @article{Georgieva2021,
    	author = "Georgieva, Iva and Beaunoyer, Elisabeth and Guitton, Matthieu J.",
    	title = "Ensuring social acceptability of technological tracking in the COVID-19 context",
    	journal = "Computers in Human Behavior",
    	volume = 116,
    	pages = 106639,
    	doi = "10.1016/j.chb.2020.106639",
    	year = 2021
    }
    
  2. Danko D Georgiev and James F Glazebrook. Quantum transport and utilization of free energy in protein $\alpha$-helices. Advances in Quantum Chemistry 82:253-300, 2020. URL, DOI, arXiv BibTeX

    @article{Georgiev2020c,
    	author = "Georgiev, Danko D. and Glazebrook, James F.",
    	title = "Quantum transport and utilization of free energy in protein $\alpha$-helices",
    	journal = "Advances in Quantum Chemistry",
    	volume = 82,
    	pages = "253-300",
    	doi = "10.1016/bs.aiq.2020.02.001",
    	arxiv = "2003.13814",
    	url = "https://authors.elsevier.com/b/1c5f9Esf5cXps",
    	year = 2020
    }
    
  3. Danko D Georgiev, Stefan K Kolev, Eliahu Cohen and James F Glazebrook. Computational capacity of pyramidal neurons in the cerebral cortex. Brain Research 1748:147069, 2020. DOI, arXiv, PMID BibTeX

    @article{Georgiev2020f,
    	author = "Georgiev, Danko D. and Kolev, Stefan K. and Cohen, Eliahu and Glazebrook, James F.",
    	title = "Computational capacity of pyramidal neurons in the cerebral cortex",
    	journal = "Brain Research",
    	volume = 1748,
    	pages = 147069,
    	doi = "10.1016/j.brainres.2020.147069",
    	pmid = 32858030,
    	arxiv = "2009.10615",
    	year = 2020
    }
    
  4. Danko D Georgiev. Quantum information theoretic approach to the mind–brain problem. Progress in Biophysics and Molecular Biology , 2020. DOI, PMID BibTeX

    @article{Georgiev2020e,
    	author = "Georgiev, Danko D.",
    	title = "Quantum information theoretic approach to the mind–brain problem",
    	journal = "Progress in Biophysics and Molecular Biology",
    	volume = "",
    	doi = "10.1016/j.pbiomolbio.2020.08.002",
    	pmid = 32822698,
    	year = 2020
    }
    
  5. Danko D Georgiev and James F Glazebrook. Launching of Davydov solitons in protein α-helix spines. Physica E: Low-dimensional Systems and Nanostructures 124:114332, 2020. DOI, arXiv BibTeX

    @article{Georgiev2020d,
    	author = "Georgiev, Danko D. and Glazebrook, James F.",
    	title = "Launching of Davydov solitons in protein α-helix spines",
    	journal = "Physica E: Low-dimensional Systems and Nanostructures",
    	volume = 124,
    	pages = 114332,
    	doi = "10.1016/j.physe.2020.114332",
    	arxiv = "2006.16798",
    	year = 2020
    }
    
  6. Danko Georgiev and Eliahu Cohen. Analysis of single-particle nonlocality through the prism of weak measurements. International Journal of Quantum Information 18(1):1941024, 2020. DOI, arXiv, MR BibTeX

    @article{Georgiev2020b,
    	author = "Georgiev, Danko and Cohen, Eliahu",
    	title = "Analysis of single-particle nonlocality through the prism of weak measurements",
    	journal = "International Journal of Quantum Information",
    	volume = 18,
    	number = 1,
    	pages = 1941024,
    	doi = "10.1142/S0219749919410247",
    	arxiv = "1810.05039",
    	mr = 4083933,
    	year = 2020
    }
    
  7. Bar Y Peled, Amit Te'eni, Danko Georgiev, Eliahu Cohen and Avishy Carmi. Double slit with an Einstein–Podolsky–Rosen pair. Applied Sciences 10(3):792, 2020. DOI, arXiv BibTeX

    @article{Peled2020,
    	author = "Peled, Bar Y. and Te'eni, Amit and Georgiev, Danko and Cohen, Eliahu and Carmi, Avishy",
    	title = "Double slit with an Einstein–Podolsky–Rosen pair",
    	journal = "Applied Sciences",
    	volume = 10,
    	number = 3,
    	pages = 792,
    	doi = "10.3390/app10030792",
    	arxiv = "2001.07168",
    	year = 2020
    }
    
  8. Iva Georgieva and Georgi V Georgiev. Reconstructing personal stories in virtual reality as a mechanism to recover the self. International Journal of Environmental Research and Public Health 17(1):26, 2020. DOI, PMID BibTeX

    @article{Georgieva2020,
    	author = "Georgieva, Iva and Georgiev, Georgi V.",
    	title = "Reconstructing personal stories in virtual reality as a mechanism to recover the self",
    	journal = "International Journal of Environmental Research and Public Health",
    	volume = 17,
    	number = 1,
    	pages = 26,
    	doi = "10.3390/ijerph17010026",
    	pmid = 31861440,
    	year = 2020
    }
    
  9. Danko D Georgiev. Inner privacy of conscious experiences and quantum information. BioSystems 187:104051, 2020. DOI, arXiv, PMID BibTeX

    @article{Georgiev2020a,
    	author = "Georgiev, Danko D.",
    	title = "Inner privacy of conscious experiences and quantum information",
    	journal = "BioSystems",
    	volume = 187,
    	pages = 104051,
    	doi = "10.1016/j.biosystems.2019.104051",
    	arxiv = "2001.00909",
    	pmid = 31629783,
    	year = 2020
    }
    
  10. Iva Georgieva and Georgi V Georgiev. Redesign me: virtual reality experience of the line of life and its connection to a healthier self. Behavioral Sciences 9(11):111, 2019. DOI, PMID BibTeX

    @article{Georgieva2019,
    	author = "Georgieva, Iva and Georgiev, Georgi V.",
    	title = "Redesign me: virtual reality experience of the line of life and its connection to a healthier self",
    	journal = "Behavioral Sciences",
    	volume = 9,
    	number = 11,
    	pages = 111,
    	doi = "10.3390/bs9110111",
    	pmid = 31694177,
    	year = 2019
    }
    
  11. Danko D Georgiev. Chalmers' principle of organizational invariance makes consciousness fundamental but meaningless spectator of its own drama. Activitas Nervosa Superior 61(4):159-164, 2019. URL, DOI BibTeX

    @article{Georgiev2019c,
    	author = "Georgiev, Danko D.",
    	title = "Chalmers' principle of organizational invariance makes consciousness fundamental but meaningless spectator of its own drama",
    	journal = "Activitas Nervosa Superior",
    	volume = 61,
    	number = 4,
    	pages = "159-164",
    	doi = "10.1007/s41470-019-00062-z",
    	url = "https://rdcu.be/bMnJo",
    	year = 2019
    }
    
  12. Danko D Georgiev and James F Glazebrook. Quantum tunneling of Davydov solitons through massive barriers. Chaos, Solitons & Fractals 123:275-293, 2019. DOI, arXiv, MR BibTeX

    @article{Georgiev2019b,
    	author = "Georgiev, Danko D. and Glazebrook, James F.",
    	title = "Quantum tunneling of Davydov solitons through massive barriers",
    	journal = "Chaos, Solitons & Fractals",
    	volume = 123,
    	pages = "275-293",
    	doi = "10.1016/j.chaos.2019.04.013",
    	arxiv = "1904.09822",
    	mr = 3941070,
    	year = 2019
    }
    
  13. Danko D Georgiev and James F Glazebrook. On the quantum dynamics of Davydov solitons in protein $\alpha$-helices. Physica A: Statistical Mechanics and its Applications 517:257-269, 2019. DOI, arXiv, MR BibTeX

    @article{Georgiev2019a,
    	author = "Georgiev, Danko D. and Glazebrook, James F.",
    	title = "On the quantum dynamics of Davydov solitons in protein $\alpha$-helices",
    	journal = "Physica A: Statistical Mechanics and its Applications",
    	volume = 517,
    	pages = "257-269",
    	doi = "10.1016/j.physa.2018.11.026",
    	arxiv = "1811.05886",
    	mr = 3880179,
    	year = 2019
    }
    
  14. Danko Georgiev and Eliahu Cohen. Probing finite coarse-grained virtual Feynman histories with sequential weak values. Physical Review A 97(5):052102, 2018. DOI, arXiv BibTeX

    @article{Georgiev2018c,
    	author = "Georgiev, Danko and Cohen, Eliahu",
    	title = "Probing finite coarse-grained virtual Feynman histories with sequential weak values",
    	journal = "Physical Review A",
    	volume = 97,
    	number = 5,
    	pages = 052102,
    	doi = "10.1103/PhysRevA.97.052102",
    	arxiv = "1709.08479",
    	year = 2018
    }
    
  15. Georgi V Georgiev and Danko D Georgiev. Enhancing user creativity: semantic measures for idea generation. Knowledge-Based Systems 151:1-15, 2018. DOI BibTeX

    @article{Georgiev2018b,
    	author = "Georgiev, Georgi V. and Georgiev, Danko D.",
    	title = "Enhancing user creativity: semantic measures for idea generation",
    	journal = "Knowledge-Based Systems",
    	volume = 151,
    	pages = "1-15",
    	doi = "10.1016/j.knosys.2018.03.016",
    	year = 2018
    }
    
  16. Danko D Georgiev and James F Glazebrook. The quantum physics of synaptic communication via the SNARE protein complex. Progress in Biophysics and Molecular Biology 135:16-29, 2018. DOI, PMID BibTeX

    @article{Georgiev2018a,
    	author = "Georgiev, Danko D. and Glazebrook, James F.",
    	title = "The quantum physics of synaptic communication via the SNARE protein complex",
    	journal = "Progress in Biophysics and Molecular Biology",
    	volume = 135,
    	pages = "16-29",
    	doi = "10.1016/j.pbiomolbio.2018.01.006",
    	pmid = 29371042,
    	year = 2018
    }
    

Учебник

  1. Danko D Georgiev. Quantum Information and Consciousness: A Gentle Introduction. CRC Press, 2017. URL, DOI, Zbl, Amazon, LCCN BibTeX

    @book{Georgiev2017,
    	author = "Georgiev, Danko D.",
    	title = "Quantum Information and Consciousness: A Gentle Introduction",
    	publisher = "CRC Press",
    	address = "Boca Raton",
    	doi = "10.1201/9780203732519",
    	zbl = "1390.81001",
    	asin = "B077YQCZ7N",
    	lccn = 2017035467,
    	url = "https://books.google.com/books?id=OtRBDwAAQBAJ",
    	year = 2017
    }
    
  2. Danko D Georgiev. §1 The main problems of consciousness. In Quantum Information and Consciousness: A Gentle Introduction. CRC Press, 2017, pages 3-28. DOI BibTeX

    @incollection{Georgiev2017a,
    	author = "Georgiev, Danko D.",
    	title = "§1 The main problems of consciousness",
    	booktitle = "Quantum Information and Consciousness: A Gentle Introduction",
    	publisher = "CRC Press",
    	address = "Boca Raton",
    	chapter = 1,
    	pages = "3-28",
    	doi = "10.1201/9780203732519-1",
    	year = 2017
    }
    
  3. Danko D Georgiev. §2 The scientific conception of the world. In Quantum Information and Consciousness: A Gentle Introduction. CRC Press, 2017, pages 31-44. DOI BibTeX

    @incollection{Georgiev2017b,
    	author = "Georgiev, Danko D.",
    	title = "§2 The scientific conception of the world",
    	booktitle = "Quantum Information and Consciousness: A Gentle Introduction",
    	publisher = "CRC Press",
    	address = "Boca Raton",
    	chapter = 2,
    	pages = "31-44",
    	doi = "10.1201/9780203732519-2",
    	year = 2017
    }
    
  4. Danko D Georgiev. §3 The world of classical physics. In Quantum Information and Consciousness: A Gentle Introduction. CRC Press, 2017, pages 45-83. DOI BibTeX

    @incollection{Georgiev2017c,
    	author = "Georgiev, Danko D.",
    	title = "§3 The world of classical physics",
    	booktitle = "Quantum Information and Consciousness: A Gentle Introduction",
    	publisher = "CRC Press",
    	address = "Boca Raton",
    	chapter = 3,
    	pages = "45-83",
    	doi = "10.1201/9780203732519-3",
    	year = 2017
    }
    
  5. Danko D Georgiev. §4 The world of quantum physics. In Quantum Information and Consciousness: A Gentle Introduction. CRC Press, 2017, pages 85-140. DOI BibTeX

    @incollection{Georgiev2017d,
    	author = "Georgiev, Danko D.",
    	title = "§4 The world of quantum physics",
    	booktitle = "Quantum Information and Consciousness: A Gentle Introduction",
    	publisher = "CRC Press",
    	address = "Boca Raton",
    	chapter = 4,
    	pages = "85-140",
    	doi = "10.1201/9780203732519-4",
    	year = 2017
    }
    
  6. Danko D Georgiev. §5 Consciousness in classical physics. In Quantum Information and Consciousness: A Gentle Introduction. CRC Press, 2017, pages 143-184. DOI BibTeX

    @incollection{Georgiev2017e,
    	author = "Georgiev, Danko D.",
    	title = "§5 Consciousness in classical physics",
    	booktitle = "Quantum Information and Consciousness: A Gentle Introduction",
    	publisher = "CRC Press",
    	address = "Boca Raton",
    	chapter = 5,
    	pages = "143-184",
    	doi = "10.1201/9780203732519-5",
    	year = 2017
    }
    
  7. Danko D Georgiev. §6 Consciousness in quantum physics. In Quantum Information and Consciousness: A Gentle Introduction. CRC Press, 2017, pages 185-238. DOI BibTeX

    @incollection{Georgiev2017f,
    	author = "Georgiev, Danko D.",
    	title = "§6 Consciousness in quantum physics",
    	booktitle = "Quantum Information and Consciousness: A Gentle Introduction",
    	publisher = "CRC Press",
    	address = "Boca Raton",
    	chapter = 6,
    	pages = "185-238",
    	doi = "10.1201/9780203732519-6",
    	year = 2017
    }
    
  8. Danko D Georgiev. §7 Toward a quantum neuroscience. In Quantum Information and Consciousness: A Gentle Introduction. CRC Press, 2017, pages 239-266. DOI BibTeX

    @incollection{Georgiev2017g,
    	author = "Georgiev, Danko D.",
    	title = "§7 Toward a quantum neuroscience",
    	booktitle = "Quantum Information and Consciousness: A Gentle Introduction",
    	publisher = "CRC Press",
    	address = "Boca Raton",
    	chapter = 7,
    	pages = "239-266",
    	doi = "10.1201/9780203732519-7",
    	year = 2017
    }
    
  9. Danko D Georgiev. §8 Research programs and conscious experiences. In Quantum Information and Consciousness: A Gentle Introduction. CRC Press, 2017, pages 267-281. DOI BibTeX

    @incollection{Georgiev2017h,
    	author = "Georgiev, Danko D.",
    	title = "§8 Research programs and conscious experiences",
    	booktitle = "Quantum Information and Consciousness: A Gentle Introduction",
    	publisher = "CRC Press",
    	address = "Boca Raton",
    	chapter = 8,
    	pages = "267-281",
    	doi = "10.1201/9780203732519-8",
    	year = 2017
    }
    

Глави на Книги

  1. Danko D Georgiev. Electric and magnetic fields inside neurons and their impact upon the cytoskeletal microtubules. In Anirban Bandyopadhyay and Kanad Ray (eds.). Rhythmic Oscillations in Proteins to Human Cognition. Studies in Rhythm Engineering series, Springer, 2020, pages 51-102. DOI BibTeX

    @incollection{Georgiev2020g,
    	author = "Georgiev, Danko D.",
    	title = "Electric and magnetic fields inside neurons and their impact upon the cytoskeletal microtubules",
    	booktitle = "Rhythmic Oscillations in Proteins to Human Cognition",
    	editor = "Bandyopadhyay, Anirban and Ray, Kanad",
    	series = "Studies in Rhythm Engineering",
    	publisher = "Springer",
    	address = "Singapore",
    	chapter = 3,
    	pages = "51-102",
    	doi = "10.1007/978-981-15-7253-1_3",
    	year = 2020
    }
    
  2. Danko D Georgiev and James F Glazebrook. Neurotransmitter release and conformational changes within the SNARE protein complex. In Sergey Edward Lyshevski (ed.). Nanoengineering, Quantum Science, and, Nanotechnology Handbook. CRC Press, 2019, pages 375-404. URL BibTeX

    @incollection{Georgiev2019d,
    	author = "Georgiev, Danko D. and Glazebrook, James F.",
    	title = "Neurotransmitter release and conformational changes within the SNARE protein complex",
    	booktitle = "Nanoengineering, Quantum Science, and, Nanotechnology Handbook",
    	editor = "Lyshevski, Sergey Edward",
    	publisher = "CRC Press",
    	address = "Boca Raton",
    	pages = "375-404",
    	url = "https://www.routledge.com/9780367197513",
    	year = 2019
    }
    

Конференции

  1. Georgi V Georgiev and Danko D Georgiev. Semantic analysis of engineering design conversations. Proceedings of the Design Society: DESIGN Conference 1:1265-1274, 2020. DOI BibTeX

    @article{Georgiev2020h,
    	author = "Georgiev, Georgi V. and Georgiev, Danko D.",
    	title = "Semantic analysis of engineering design conversations",
    	journal = "Proceedings of the Design Society: DESIGN Conference",
    	volume = 1,
    	pages = "1265-1274",
    	doi = "10.1017/dsd.2020.294",
    	year = 2020
    }
    
  2. Georgi V Georgiev and Danko D Georgiev. Semantic analysis approach to studying design problem solving. Proceedings of the Design Society: International Conference on Engineering Design 1(1):1823-1832, 2019. DOI BibTeX

    @article{Georgiev2019e,
    	author = "Georgiev, Georgi V. and Georgiev, Danko D.",
    	title = "Semantic analysis approach to studying design problem solving",
    	journal = "Proceedings of the Design Society: International Conference on Engineering Design",
    	volume = 1,
    	number = 1,
    	pages = "1823-1832",
    	doi = "10.1017/dsi.2019.188",
    	year = 2019
    }
    

Медийно Отразяване

  1. Greg Porter. Quantum capers: introducing a common sense guide to Quantum Physics. The Sized Magazine, 2019. URL BibTeX

    @article{Porter2019,
    	author = "Porter, Greg",
    	title = "Quantum capers: introducing a common sense guide to Quantum Physics",
    	journal = "The Sized Magazine",
    	url = "https://www.thesized.com/quantum-capers-common-sense-guide-quantum-physics/",
    	year = 2019
    }
    

Мултиквантови солитони на Давидов в протеините

Протеините поддържат живите системи в подредено състояние далеч от равновесието. За да се подхранват биопроцесите обаче, енергията в живите системи трябва да се пренася в минимални количества, тъй като по-високият интензитет е пагубен за крехките и деликатни биоструктури. Въпреки че поведението на всички молекули се описва фундаментално от квантовата механика, високоефективното използване на единични енергийни кванти от протеините предполага, че характерни квантови ефекти са абсолютно необходими за правилното описание и разбиране на живота.

Прочети още: Мултиквантови солитони на Давидов в протеините

Генериране на солитони на Давидов в протеини

Биологичният порядък в протеиновите α-спирали повишава ефективността на транспорта на енергия. Самозахващането на енергийните амид I екситони чрез индуцирана фононна деформация на свързаната с водородни връзки решетка от пептидни групи генерира или статични, или движещи се вълни по модела на Давидов. Ефектът на фазово-синхронизираните гаусови импулси от амид I енергия обаче силно зависи от мястото на приложение. Подвижни солитони се стартират само когато амид I енергията е приложена в единия край на α-спиралата, докато статични солитони се произвеждат във вътрешността на α-спиралата.

Прочети още: Генериране на солитони на Давидов в протеини

Преразказване на травматични истории във виртуална реалност

Виртуалната реалност (VR) навлиза дълбоко в модерния живот. В медицината, VR се използва за преподаване на умения, облекчаване на тревожни психологически състояния и постигане на релаксация. VR също е често средство за лечение на психологическа травма със способността си да потапя пациента в сценарии на експозиция, тъй като пресъздава жизнени събития по реалистичен начин. Разказвателната функция, съчетана със силното чувство за присъствие предизвикано у хората преживяващи VR, е обещаваща за лечението на посттравматично стресово разстройство.

Прочети още: Преразказване на травматични истории във виртуална реалност