PHYSICAL REVIEW E - Journal - Bridge of Knowledge

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PHYSICAL REVIEW E

ISSN:

1539-3755

eISSN:

2470-0053

Disciplines
(Field of Science):

  • biomedical engineering (Engineering and Technology)
  • civil engineering, geodesy and transport (Engineering and Technology)
  • materials engineering (Engineering and Technology)
  • mechanical engineering (Engineering and Technology)
  • forestry (Agricultural sciences)
  • agriculture and horticulture (Agricultural sciences)
  • chemical sciences (Natural sciences)
  • physical sciences (Natural sciences)

Ministry points: Help

Ministry points - current year
Year Points List
Year 2024 140 Ministry scored journals list 2024
Ministry points - previous years
Year Points List
2024 140 Ministry scored journals list 2024
2023 140 Ministry Scored Journals List
2022 140 Ministry Scored Journals List 2019-2022
2021 140 Ministry Scored Journals List 2019-2022
2020 140 Ministry Scored Journals List 2019-2022
2019 140 Ministry Scored Journals List 2019-2022
2018 35 A
2017 35 A
2016 35 A
2015 35 A
2014 35 A
2013 35 A
2012 35 A
2011 35 A
2010 32 A

Model:

Hybrid

Points CiteScore:

Points CiteScore - current year
Year Points
Year 2023 4.5
Points CiteScore - previous years
Year Points
2023 4.5
2022 4.6
2021 4.5
2020 4.3
2019 4.2
2018 4.3
2017 4.3
2016 5.3
2015 4.2
2014 4.1
2013 4.1
2012 4.1
2011 4

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total: 8

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Catalog Journals

Year 2014
Year 2013
  • Measuring the density of DNA films using ultraviolet-visible interferometry
    Publication

    - PHYSICAL REVIEW E - Year 2013

    In order to determine a proper value for the density of dry DNA films we have used a method based upon the measurement of interference effects in transmission spectra of thin DNA layers. Our results show that the methodology is effective and the density of DNA in this state, 1.407 g/cm3, is much lower than the commonly used 1.7 g/cm3. Obtaining accurate values for the DNA film density will allow the optical constants for DNA to...

    Full text available to download

Year 2012
  • Convergence to equilibrium under a random Hamiltonian
    Publication
    • F. G. Brandao
    • P. Ćwikliński
    • M. Horodecki
    • P. Horodecki
    • J. Korbicz
    • M. Mozrzymas

    - PHYSICAL REVIEW E - Year 2012

    We analyze equilibration times of subsystems of a larger system under a random total Hamiltonian, in which the basis of the Hamiltonian is drawn from the Haar measure. We obtain that the time of equilibration is of the order of the inverse of the arithmetic average of the Bohr frequencies. To compute the average over a random basis, we compute the inverse of a matrix of overlaps of operators which permute four systems. We first...

    Full text available to download

Year 2011
Year 2010
Year 2008
Year 2006
Year 2003

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