Popular Keywords

Nanobiotechnology

Nanorobotics

Cancer Nanotechnology

Carbon Nanostructures

Carbon Nanotubes and Biomolecules

Computational nanotechnology

More Effective Monte Carlo Exposure Estimation for reducing Plasma Therapy and Charged Particle Tumour Monte Carlo Drug Spreads for Treatment of Several Cancer Areas.

Correspondence to Author: Reza Beidari, 

BioSpectroscopy Core Research Laboratory, California South University, CA, USA

ABSTRACT

The hardware for moulding and supervising hadron minibeams has been planned, produced, and tested in early models for the fractionated hadron therapy (examinations to see whether something should be possible) of (related to space or existing in space).

Letter

The hardware for moulding and supervising hadron minibeams has been planned, produced, and tested in early models for the fractionated hadron therapy (examinations to see whether something should be possible) of (related to space or existing in space). The collimatorís setup was based on Monte Carlo simulations (that appear or feel close to the original article). To mould minibeams, cut and network collimators were used. For estimating hadrons strength conveyance in minibeams, gafchromic films, micropixel finders Timepix in a combination of two things/gas-electric vehicle as well as metal mode were tested. The metal microstrip identifier estimated a general bar profile. In order to investigate low energy protons at the KINR (cooperating) generator as well as high energy carbon and oxygen particle radiates at HIT (Heidelberg), a smaller than standard shafts moulding and watching/overseeing hardware was shown. The results demonstrate excellent use of the triedand-true hardware for hadron small scale bar structure imaging and moulding.

Citation:

Reza Beidari. More Effective Monte Carlo Exposure Estimation for reducing Plasma Therapy and Charged Particle Tumour Monte Carlo Drug Spreads for Treatment of Several Cancer Areas. Journal of Applied Nanoscience 2023.

Journal Info

  • Journal Name: Journal of Applied Nanoscience
  • Impact Factor: 1.607
  • ISSN: 2996-1726
  • DOI: 10.52338/JOAN
  • Short Name: JOAN
  • Acceptance rate: 55%
  • Volume: 6 (2024)
  • Submission to acceptance: 25 days
  • Acceptance to publication: 10 days

INDEXING

  • Crossref indexed journal
  • Publons indexed journal
  • Pubmed-indexed journal
  • International Scientific Indexing (ISI)-indexed journal
  • Eurasian Scientific Journal Index (ESJI) index journal
  • Semantic Scholar indexed journal
  • Cosmos indexed journal

OUR PUBLICATION BENEFITS

  • International Reach
  • Peer Review
  • Rapid Publication
  • Open Access
  • High Visibility