Editor-in-Chief

Section Editors

Editorial Office / Contact

  • Christoph Hinzen

    Technische Universität München, Dept. of Biological Imaging, Munich, Germany

    Email Christoph Hinzen

Editorial Board

  • Mark Anastasio

    Washington University in St. Louis, Dept. of Biomedical Engineering in the School of Engineering & Applied Science, St. Louis, Missouri, USA

    photoacoustic/optoacoustic tomography, tomographic image reconstruction, inverse problems in imaging, computational image science

  • Bertrand Audoin

    Université de Bordeaux 1, Dept. of Physical Acoustics, Talence, France

    laser-ultrasonics, picosecond ultrasonics, single cell opto-acoustics, single nanoparticle

  • Paul Beard

    University College London (UCL), Dept. of Medical Physics and Bioengineering, London, England, UK

  • Gerald Diebold

    Brown University, Dept. of Chemistry, Providence, Rhode Island, USA

    physics of the photoacoustic effect, chemical generation of sound, ultrasonic vibration potential, thermal diffusion

  • Rinat Esenaliev

    University of Texas Medical Branch, Dept. of Neuroscience and Cell Biology, Galveston, Texas, USA

    optoacoustic monitoring and sensing, optoacoustic spectroscopy, quantitative optoacoustic measurements, optoacoustic imaging, multimodal ultrasound and optoacoustic imaging, optoacoustic instrumentation

  • Mathias Fink

    Université Paris Diderot (Paris 7), ESPCI, Paris, France

    multiwave imaging, elasticity imaging, inverse problems in imaging, time-reversal in wave physics

  • Martin Frenz

    Universität Bern, Inst. of Applied Physics, Department of Biomedical Photonics, Bern, Switzerland

    optoacoustic imaging, multimodal ultrasound and optoacoustic imaging, image reconstruction algorithm, quantitative medical imaging, nanoparticles, clutter reduction

  • Christ Glorieux

    Katholieke Universiteit Leuven (Universitair Ziekenhuis), Lab. of Acoustics and Thermal Physics, Department of Physics and Astronomy, Leuven, Belgium

    photoacoustic and photothermal phenomena, laser ultrasonics, soft matter physics, non-destructive testing, thin layers, phase transitions, glass transition, linear and nonlinear acoustics, all-optical photothermal and photoacoustic methods, high resolution and high bandwidth thermometry

  • Song Hu

    University of Virginia, Dept. of Biomedical Engineering, Charlottesville, Virginia, USA

    photoacoustic microscopy, optical microscopy, vascular biology, tumor biology, cardiovascular disease, neurovascular coupling

  • Miya Ishihara

    National Defense Medical College, Department of Medical Engineering, Tokorozawa, Japan

    laser–tissue interaction, photoacoustics for medical application, PVDF film sensor

  • Michael Kolios

    Ryerson University, Dept. of Physics, Toronto, Ontario, Canada

    acoustic and photoacoustic microscopy, ultrasound and photoacoustic tissue characterization, theranostic agent development for ultrasound and photoacoustics, thermal therapies and bioheat transfer

  • Pai-Chi Li

    National Taiwan University, Dep. of Electrical Engineering, Taipei, Taiwan, ROC

    photoacoustic imaging, biomedical ultrasound, molecular imaging

  • Matthew O'Donnell

    University of Washington, Dept. of Bioengineering, Seattle, Washington, USA

    photoacoustic imaging, ultrasonic imaging, optoacoustic devices, contrast agents, biomedical engineering

  • Malini Olivo

    Singapore Bioimaging Consortium, Helios, Singapore

    photomedicine, nanobiophotonics, optical imaging, bio-sensing

  • Alexander Oraevsky

    TomoWave Laboratories, Inc., Suite 124, Houston, Texas, USA

    imaging, sensing, monitoring, tomography, spectroscopy, microscopy, laser (all associated with biomedical applications)

  • Liang Song

    Shenzhen Institute of Advanced Technology, Shenzhen, China

    photoacoustic microscopy, photoacoustic endoscopy, intravascular photoacoustics, atherosclerosis imaging, angiogenesis imaging

  • Wiendelt Steenbergen

    University of Twente, Complex Photonic Systems (COPS), Enschede, Netherlands

    photoacoustic mammography, breast cancer, quantification, acousto-optics, rheumatology

  • Jie Tian

    Chinese Academy of Sciences (CAS), Inst. of Automation, Bejing, China

    multimodal optical molecular imaging, photoacoustic imaging, image reconstruction, photoacoustic devices

  • Xueding Wang

    University of Michigan, Dept. of Biomedical Engineering, Ann Arbor, Michigan, USA

    biomedical photoacoustics, optical imaging, light-tissue interactions, medical ultrasound

  • Roger Zemp

    University of Alberta, Department of Electrical and Computer Engineering, Edmonton, Alberta, Canada

    photoacoustic imaging, ultrasound imaging, optical-resolution photoacoustic microscopy, molecular imaging, imaging of gene expression, capacitive micromachined ultrasound transducers, image analysis and reconstruction algorithms, fiber-laser technology, light transport in turbid media, nano-scale photoacoustic and ultrasonic contrast agents

  • Vladimir Zharov

    University of Arkansas for Medical Sciences, Arkansas Nanomedicine Center, Little Rock, Arkansas, USA

    spectroscopy, microscopy, sensing, photothermics, cytometry, nanomedicine, theranostics

  • Quing Zhu

    University of Connecticut, Dept. of Computer Science & Engineering, Storrs, Connecticut, USA

    photoacoustic tomography, cancer detection and diagnosis, devices

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