Particle therapy is revolutionizing radiation oncology by enabling highly precise, individualized cancer treatments. As technology evolves, the integration ...

Monte Carlo simulations have become indispensable in radiation biology and dosimetry, enabling researchers to model with high precision the cascade of interactions that occur when ionising radiation ...

Monte Carlo simulations have emerged as an indispensable tool in gamma‐ray spectrometry and detector calibration, offering nuanced insights into particle interactions and detector responses. By ...

Impact of the First Wave of COVID-19 Pandemic on Radiotherapy Practice at Tata Memorial Centre, Mumbai: A Longitudinal Cohort Study Recently, a semimobile RO system has been developed by building an o ...

With highly specialized instruments, we can see materials on the nanoscale – but we can’t see what many of them do. That limits researchers’ ability to develop new therapeutics and new technologies ...

ARCHER simulates particle transport across the accelerator, patient phantom, and EPID. Key components include the target, primary collimator, flattening filter, ionization chamber, mirror, jaws, HDMLC ...

A new paper published in EPJ Plus and authored by Eduardo De Paiva, from the Division of Medical Physics at the Institute of Radiation Protection and Dosimetry, Rio de Janeiro, Brazil, pits the gold ...

I am looking to estimate the potential for failure in a complex system using Monte Carlo simulation. I am quite familiar with using MC for engineering simulations, but have never approached the ...