Work with thought leaders and academic experts in Radiation

Companies can greatly benefit from collaborating with academic researchers whose expertise is in the field of Radiation. These researchers possess in-depth knowledge and understanding of radiation and its applications. By partnering with them, companies can gain valuable insights, access cutting-edge technology and equipment, and develop innovative solutions for their radiation-related challenges. Academic researchers can provide expert guidance and support in areas such as radiation safety, radiation therapy, nuclear energy, radiation detection, and more. Their expertise can help companies improve their products, processes, and services, ensuring compliance with regulations and industry standards. Collaborating with academic researchers also opens up opportunities for joint research projects, publications, and knowledge sharing, enhancing the company's reputation and credibility in the field of radiation.

Researchers on NotedSource with backgrounds in Radiation include Ramy Ayoub, Daniel Milej, Ph.D., and Siddharth Maddali.

Ramy Ayoub

Toronto, Ontario, Canada
5 Years Experience
PhD Medical Biophysics
Education

University of Toronto

Ph.D., Medical Biophysics / October, 2023 (anticipated)

Toronto, Ontario, Canada
Experience

The Hospital for Sick Children

PhD Scientific Researcher / September, 2018October, 2023

Designed strategies to limit negative complications experienced by brain tumour survivors treated with radiation; Conducted genetic and pharmacological interventions in mouse models to determine translatability of strategies; Assessed the efficacy of treatment strategies using multi-modal imaging approaches (MRI, serial two-photon imaging); Published findings in peer-reviewed journals Nature, and Radiation Research

Most Relevant Research Expertise
Radiation
Other Research Expertise (10)
neuro-oncology
mouse imaging
cancer therapy
normal tissue toxicity
Radiology, Nuclear Medicine and imaging
And 5 more
About
Ramy Ayoub obtained his Ph.D. in Medical Biophysics from the University of Toronto in 2023, where he developed a strong foundation in the principles and applications in neuroscience, statistics, machine learning, imaging & radiation physics. During his time at the University of Toronto, Ramy has been involved in conducting cutting-edge research in the field, with a focus on developing new technologies and pharmacological interventions to improve healthcare outcomes. He is passionate about using his skills and expertise to make a positive impact in the medical field and is dedicated to advancing the field through his ongoing research and contributions.
Most Relevant Publications (1+)

7 total publications

Spatiotemporal Mapping of Early Volume Loss in the Mouse Brain after Cranial Irradiation

Radiation Research / Jul 16, 2021

Ayoub, R., Lau, K., Yuen, N., Fernandes, D., Elder, M., Yeung, J., Wong, S. C., & Nieman, B. J. (2021). Spatiotemporal Mapping of Early Volume Loss in the Mouse Brain after Cranial Irradiation. Radiation Research, 196(4). https://doi.org/10.1667/rade-21-00013.1

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Daniel Milej, Ph.D.

London, Ontario, Canada
15 Years Experience
Ph.D. in biomedical engineering
Education

Western University

Post-doctorate fellowship, Department of Medical Biophysics / June, 2019

London

Polish Academy of Science

PhD, Nalecz Institute of Biocybernetics and Biomedical Engineering / June, 2014

Warsaw

Military Univeristy of Technology

MSc, Department of Electronics / June, 2008

Warsaw
Experience

Lawson Research Institute

Research Associate / July, 2019July, 2025

Scientist / August, 2024Present

Western University

Postdoctoral fellow / September, 2014June, 2019

Assistant Professor / September, 2024Present

Polish Academy of Science

Researcher/PhD Student / June, 2008September, 2014

Most Relevant Research Expertise
Radiation
Other Research Expertise (31)
Biomedical Optics
NIRS
fNIRS
Diffuse Correlation Spectroscopy
CBF
And 26 more
About
Dr. Daniel Milej is a multidisciplinary researcher with experience in medical biophysics, electronics, biocybernetics, biomedical optics and engineering. He is highly knowledgeable and experienced in a range of research techniques. He is a Scientist at the Lawson Research Institute, leading the transition of multimodal optical imaging systems from a research setting to clinical use in an ICU and OR environment, working closely with teams of nurses, surgeons, doctors and respiratory therapists. Previously, he was a Postdoctoral Fellow and Research Associate working on developing noninvasive modalities for brain activity monitoring in the Department of Medical Biophysics at Western University. Before that, Dr. Milej worked as a Researcher at the Nalecz Institute of Biocybernetics and Biomedical Engineering. He obtained his Ph.D. in 2014 from the Polish Academy of Science, specializing in Biocybernetics and Biomedical Engineering. He received his MSc in Electronics/Optoelectronics from the Military University of Technology, Warsaw, Poland, in 2008.
Most Relevant Publications (3+)

91 total publications

Time-resolved multi-channel optical system for assessment of brain oxygenation and perfusion by monitoring of diffuse reflectance and fluorescence

Opto-Electronics Review / Jan 01, 2014

Milej, D., Gerega, A., Kacprzak, M., Sawosz, P., Weigl, W., Maniewski, R., & Liebert, A. (2014). Time-resolved multi-channel optical system for assessment of brain oxygenation and perfusion by monitoring of diffuse reflectance and fluorescence. Opto-Electronics Review, 22(1). https://doi.org/10.2478/s11772-014-0178-y

Advantages of fluorescence over diffuse reflectance measurements tested in phantom experiments with dynamic inflow of ICG

Opto-Electronics Review / Jan 01, 2010

Milej, D., Kacprzak, M., Żołek, N., Sawosz, P., Gerega, A., Maniewski, R., & Liebert, A. (2010). Advantages of fluorescence over diffuse reflectance measurements tested in phantom experiments with dynamic inflow of ICG. Opto-Electronics Review, 18(2). https://doi.org/10.2478/s11772-010-0013-z

Time-resolved imaging of fluorescent inclusions in optically turbid medium — phantom study

Opto-Electronics Review / Jan 01, 2010

Kacprzak, M., Liebert, A., Sawosz, P., Żołek, N., Milej, D., & Maniewski, R. (2010). Time-resolved imaging of fluorescent inclusions in optically turbid medium — phantom study. Opto-Electronics Review, 18(1). https://doi.org/10.2478/s11772-009-0027-6

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Siddharth Maddali

Fremont, California, United States of America
8 Years Experience
Computational physicist with a specialization in X-ray and optical imaging and microscopy for condensed matter and materials systems.
Education

Carnegie Mellon University

PhD, Physics / May, 2016

Pittsburgh, Pennsylvania, United States of America

Carnegie Mellon University

MS, Physics / May, 2011

Pittsburgh, Pennsylvania, United States of America

Indian Institute of Technology Madras

M.Sc, Physics / May, 2009

Chennai
Experience

KLA (United States)

Research Scientist / November, 2022Present

Sensitivity enhancement of optical inspection of semiconductor wafers

Argonne National Laboratory

Staff Scientist / October, 2019September, 2022

(1) Imaging: Inverse problems for 3D nanoscale materials imaging using coherent X-ray probes. (2) Time-resolved studies: Signal processing methods for XPCS at free electron laser facilities. (3) Experiments: POCs & demonstrations for the above at APS/future APS-U instruments. (4) Fundraising: Research grants (LDRD, DoE), APS, ESRF user-time proposals. (5) Dissemination/Outreach: Publications, peer review, editorship, conferences, tech reports. (6) Mentoring/Organization: Postdocs, students (unofficial), workshop planning/chairing.

Post-doctoral researcher / January, 2017September, 2019

National Energy Technology Laboratory

Postdoctoral Fellow / May, 2016November, 2016

Machine learning -driven materials discovery of steel alloys for optimized power plant components

Most Relevant Research Expertise
Radiation
Other Research Expertise (21)
Computational microscopy
Fourier/physical optics
signal processing
physics
HPC
And 16 more
About
Computational materials, imaging and microscopy scientist with **8 years combined experience** in industry and national laboratories. Expert in physics-based imaging and characterization with X-rays and optical probes, high-performance computing for light-matter interaction and materials data analysis. Experienced in machine learning for materials discovery. Previous experience at the National Energy Technology Laboratory, Argonne National Laboratory and KLA Corporation. <br>
Most Relevant Publications (1+)

29 total publications

Multimodal X-ray imaging of grain-level properties and performance in a polycrystalline solar cell

Journal of Synchrotron Radiation / May 14, 2019

Ulvestad, A., Hruszkewycz, S. O., Holt, M. V., Hill, M. O., Calvo-Almazán, I., Maddali, S., Huang, X., Yan, H., Nazaretski, E., Chu, Y. S., Lauhon, L. J., Rodkey, N., Bertoni, M. I., & Stuckelberger, M. E. (2019). Multimodal X-ray imaging of grain-level properties and performance in a polycrystalline solar cell. Journal of Synchrotron Radiation, 26(4), 1316–1321. https://doi.org/10.1107/s1600577519003606

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Example Radiation projects

How can companies collaborate more effectively with researchers, experts, and thought leaders to make progress on Radiation?

Development of Advanced Radiation Detection Systems

An academic researcher in Radiation can collaborate with a company to develop advanced radiation detection systems. This project can help the company enhance its radiation safety measures, improve the accuracy and efficiency of radiation detection, and ensure compliance with regulatory requirements.

Optimization of Radiation Therapy Techniques

Collaborating with an academic researcher in Radiation can help a company optimize its radiation therapy techniques. The researcher can provide insights and expertise in areas such as treatment planning, dose calculation, and delivery methods, leading to improved patient outcomes and more precise and targeted radiation therapy.

Exploration of Radiation's Impact on Materials

By partnering with an academic researcher in Radiation, a company can explore the impact of radiation on different materials. This collaboration can help the company understand the effects of radiation exposure on its products or materials, develop radiation-resistant materials, and ensure the durability and safety of its products in radiation-intensive environments.

Development of Radiation Shielding Solutions

An academic researcher in Radiation can collaborate with a company to develop innovative radiation shielding solutions. This project can help the company enhance its radiation protection measures, design effective shielding materials and structures, and ensure the safety of personnel working in radiation-prone environments.

Evaluation of Radiation Safety Protocols

Collaborating with an academic researcher in Radiation can assist a company in evaluating its radiation safety protocols. The researcher can conduct comprehensive assessments, identify potential risks and vulnerabilities, and recommend improvements to ensure the highest level of radiation safety and compliance with industry standards.