Journal Guide

Race & Class is a peer-reviewed, ISI-ranked publication, the foremost English language journal on racism and imperialism in the world today. For three decades it has established a reputation for the breadth of its analysis, its global outlook and its multidisciplinary approach.

Race Ethnicity & Education (REE) is the leading peer-reveiwed journal on racism and race inequality in education. REE provides a focal point for international scholarship, research and debate. It publishes original and challenging research which explores the dynamics of race, racism and ethnicity in education policy, theory and practice. The journal has quickly established itself as essential reading for those working in this field and especially welcomes writing which addresses the interconnections between race, ethnicity and multiple forms of oppression including class, gender, sexuality and disability. All articles are independently refereed and the journal is supported by a distinguished international editorial panel.Supported by the AERA Critical Examination of Race, Ethnicity, Class and Gender in Education Special Interest Group and the BERA 'ace' Ethnicity and Education Special Interest Group. Listen to David Gillborn, Editor of Race Ethnicity & Education introduce the journal.Peer Review Policy:All research articles in this journal have undergone rigorous peer review, based on initial editor screening and anonymized refereeing by at least two anonymous referees.Disclaimer for Scientific, Technical and Social Science publications:Taylor & Francis makes every effort to ensure the accuracy of all the information (the 8220;Content8221;) contained in its publications. However, Taylor & Francis and its agents and licensors make no representations or warranties whatsoever as to the accuracy, completeness or suitability for any purpose of the Content and disclaim all such representations and warranties whether express or implied to the maximum extent permitted by law. Any views expressed in this publication are the views of the authors and are not the views of Taylor & Francis.

Taylor & Francis is pleased to announce that Radiation Effects and Defects in Solids is incorporating Plasma Science and Plasma Technology. Researchers in these fields are invited to submit their papers.Radiation Effects and Defects in Solids publishes experimental and theoretical papers of both a fundamental and applied nature that contribute to the understanding of defects and phenomena induced by the interaction of all types of radiation with condensed matter. The range of contributions encompasses: radiation physics; radiochemistry; radiobiology and physical effects of medical irradiation, including research on radiative cell degeneration; optical, electrical and mechanical effects of radiation; and their secondary effects such as diffusion and particle emission from surfaces; plasma techniques and plasma phenomena. Topics covered include atomic and electronic properties of defects induced by radiation; the influence of such defects on lattice properties and processes; the lattice-defect approach to solid state reactions such as clustering, precipitation, laser annealing and the role of impurities; the defect dynamics in a non-steady state such as under-particle or electromagnetic irradiation, or during rapid temperature change; radiation enhanced oxidation; problems associated with the metastable nature of amorphous materials and surface modifications.Emphasis will also be put on plasma related topics such as Laser-generated plasma, plasma diagnostics, laser-plasma interaction, Equilibrium and non-equilibrium plasmas, ion emission from plasmas, particles emission from plasmas, photon emission from plasmas, plasma production techniques and plasma behavior under various conditions, dielectric barrier discharges, instabilities and fluctuations, zonal flows, effects in plasma and fusion reactors, magnetospheres, and problems of surface and interface treatment such as coatings and thin film formation and material180;s adhesion and attachment of particles and biomatter.Materials studied may include: semiconductors; polymers and other organic materials; biomatter; and inorganic compounds such as metal oxides, high Tc superconductors and minerals. Submissions discussing biomaterials and nanomaterials are particularly encouraged. Papers dealing with radiation effects on metals will be considered but purely metallurgical papers are not appropriate.Papers dealing with radiation effects in R&D applications are also encouraged, for example: accelerator technology; electronics and opto-electronics; sensors; dosimetry and medical technologies; decontamination, food sterilization, plasma, fusion and fission devices and space research.All research articles published in Radiation Effects and Defects in Solids have undergone rigorous peer review, based on initial screening by the Editor and refereeing by two anonymous referees.Taylor & Francis makes every effort to ensure the accuracy of all the information (the 8220;Content8221;) contained in its publications. However, Taylor & Francis and its agents and licensors make no representations or warranties whatsoever as to the accuracy, completeness or suitability for any purpose of the Content and disclaim all such representations and warranties whether express or implied to the maximum extent permitted by law. Any views expressed in this publication are the views of the authors and are not the views of Taylor & Francis.

Radiation Measurements provides a forum for the presentation of the latest developments in the broad field of ionizing radiationdetection and measurement and publishes original papers on both fundamental and applied research.Traditionally the journal has covered methods that comprise solid state nuclear track detectors; spontaneous and stimulated luminescence (including scintillating materials, thermoluminescence, and optically stimulated luminescence); electron spin resonance of natural and synthetic materials; nuclear magnetic resonance (including ferrous sulfate and polymer gels), and superheated emulsions (including superheated drop and bubble detectors). Physics, design and performance of radiation measurements, including computational modelling such as Monte Carlo simulations, are of relevance to the journal, as well as studies of energy-transfer phenomena, track physics and microdosimetry. Measurements and calculations of fundamental physical data, such as cross sections, reaction yields and attenuation coefficients, are acceptable within studies of radiation detection and dosimetry.Applications of interest to the journal are: personal dosimetry (including dosimetric quantities, active/electronic and passive monitoring techniques for photon, neutron and charged-particle exposures); environmental dosimetry (including radon measurements where they introduce methodological advances, predictive models, or detailed and original maps of complete or unusual geographical/geological regions); cosmic and high-energy radiation measurements (including dosimetry, space radiation effects, and single event upsets); dosimetry-based archaeological and geological dating; accident and retrospective dosimetry (including activation detectors). Papers that present novel detection techniques and applications such as illicit radiological and nuclear material detection (including contraband interdiction and safeguards verification) are also sought. Review articles are periodically solicited by the Editors.