Primer on Radiation Oncology Physics

1 - 1

Basic Physics

Particles and waves

1 - 2

Basic Physics

Atomic structure

2 - 1

Nuclear Structure and Decay

Nuclear structure and energetics

2 - 2

Nuclear Structure and Decay

Nuclear decay schemas

3 - 1

Mathematics of Nuclear Decay

Exponential decay

3 - 2

Mathematics of Nuclear Decay

Equilibrium of isotopes

4 - 1

Brachytherapy I

Brachytherapy isotopes and sources

4 - 2

Brachytherapy I

Brachytherapy exposure and dose

5 - 1

Photon Interactions with Matter

Interaction of low-energy photons

5 - 2

Photon Interactions with Matter

Interaction of high-energy photons

6 - 1

Photon beams, Dose and Kerma

Beam attenuation and spectrum

6 - 2

Photon beams, Dose and Kerma

Dose and kerma

7 - 1

Particle Interactions with Matter

Radiative energy loss

7 - 2

Particle Interactions with Matter

Collisional energy loss

7 - 3

Particle Interactions with Matter

Neutron energy loss and LET

8 - 1

X-ray Tubes and Linacs

X-ray tubes

8 - 2

X-ray Tubes and Linacs

Beam production in linear accelerators

9 - 1

Medical Linear Accelerators

Linac collimation system

9 - 2

Medical Linear Accelerators

Linear accelerator systems

10 - 1

Megavoltage Photon Beams

Basic properties of MV photon beams

10 - 2

Megavoltage Photon Beams

MV photon beams: effects in patients

11 - 1

Megavoltage Photon Beams: TMR and Dose Calculations

PDD & TMR

11 - 2

Megavoltage Photon Beams: TMR and Dose Calculations

MU calcculations

12 - 1

Photon Beam Treatment Planning I

Dose calculations algorithms

12 - 2

Photon Beam Treatment Planning I

Planning with MV photon beams

13 - 1

Photon Beam Treatment Planning II

Volume definitions and DVHs

13 - 2

Photon Beam Treatment Planning II

Plan quality, TCP, NTCP

14 - 1

IMRT & VMAT

IMRT & VMAT delivery

14 - 2

IMRT & VMAT

Inverse planning

15 - 1

Megavoltage Electron Beams

Basic physics and PDD

15 - 2

Megavoltage Electron Beams

Properties of treatment beams

16 - 1

Ionization Chambers

Introduction to dose measurement

16 - 2

Ionization Chambers

Dose measurement protocols

17 - 1

Other Radiation Measurement Devices

Diodes

17 - 2

Other Radiation Measurement Devices

Luminescent dosimeters

17 - 3

Other Radiation Measurement Devices

Film

18 - 1

Quality Assurance

Principles of QA

18 - 2

Quality Assurance

QA of linear accelerators

18 - 3

Quality Assurance

Patient-specific QA

18 - 4

Quality Assurance

QA of full dosimetry system

19 - 1

Radiographic Imaging

Basic principles of radiography

19 - 2

Radiographic Imaging

Computed Tomography (CT)

20 - 1

Imaging II

Magnetic Resonance Imaging (MRI)

20 - 2

Imaging II

Nuclear medicine & PET

20 - 3

Imaging II

Ultrasound

21 - 1

Image guidance and Motion Management

Image-guided Radiation Therapy (IGRT)

21 - 2

Image guidance and Motion Management

Motion management

22 - 1

Stereotactic Treatments

Stereotactic Radiosurgery (SRS)

22 - 2

Stereotactic Treatments

Stereotactic Body Radiation Therapy (SBRT)

23 - 1

TBI & TSET

Total Body Irradiation (TBI)

23 - 2

TBI & TSET

Total Skin Electron Therapy (TSET)

24 - 1

Particle Therapy

Proton therapy

24 - 2

Particle Therapy

Proton planning, QA and Ion beams

25 - 1

Radiation Protection

Dose equivalent and effective dose

25 - 2

Radiation Protection

Risk models, dose limits and monitoring

25 - 3

Radiation Protection

Shielding and surveys

26 - 1