Particle Accelerator: Definition, Types & Uses

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Muskan Shafi

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Particle Accelerator is defined as a machine that accelerates elementary particles like electrons or protons to very high energies. 

  • Particle accelerators are used in fundamental research for an improved understanding of matter.
  • They are also used in a variety of applications related to health, food quality, energy and aerospace technologies.
  • Particle accelerators can be both linear or circular in shape and are of different sizes.
  • Large Hadron Collider (LHC) near Geneva, Switzerland is the largest particle accelerator.
  • Particle accelerator can accelerate two beams of protons to an energy of 6.5 TeV. 

Key Terms: Particle Accelerator, Spectrometer, Electrostatic Particle Accelerator, Electrodynamic Accelerator, Linear Accelerator, Circular Accelerator


What is Particle Accelerator?

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Particle Accelerator is a machine used to propel charged particles or ions to high speed and contain them in well-defined beams using electromagnetic fields.  

Particle Accelerator is used for various purposes in research arena such as 

  • Oncologists
  • Radioisotope Production For Medical Diagnoses
  • Ion Implanter for Semiconductor Devices
  • Accelerator Mass Spectrometer

    Particle Accelerator

Particle Accelerator


Types of Particle Accelerator

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Particle Accelerator was frist created by Ernest Lawrence in 1930. They are classified based on their accelerating potential. The two types of particles accelerators are:

Electrostatic Particle Accelerator

  • Electrostatic Particle Accelerator is uses static electric fields to accelerate elementary particles. 
  • In this type of accelerator, the kinetic energy available depends on accelerating voltage. 
  • The accelerating voltage is limited by electrical breakdown. 
  • Electrostatic accelerators are outnumbered due to the greater energy needs. 
  • Cathode-Ray Tube is a small-scale example of this type of accelerator.

    Electrostatic Particle Accelerator

Electrostatic Particle Accelerator

Two main types of electrostatic accelerators are

  • Cockcroft-Walton Accelerators
  • Van de Graaff Accelerators

Cockcroft-Walton accelerator uses a diode capacitor to produce high voltage while the Van de Graaff accelerator uses a moving fabric belt to produce high voltage. 

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Electrodynamic / Electromagnetic Accelerator

Electrodynamic Accelerator uses dynamic electric fields to accelerate elementary particles. Dynamic fields are preferred over static fields to accelerate particles to high energy. 

Electrodynamic accelerators are of three types-:

  •  Magnetic Induction Accelerator: It is a type of particle accelerator that accelerates the particles by induction from an increasing magnetic field. Two types of magnetic induction accelerators are Linear induction accelerators and Betatrons.
  • Linear Accelerators: It is the type of electrodynamic accelerator that accelerates elementary particles in a straight line. In this type of accelerator, electromagnetic fields accelerate the particles along a linear beamline.
  • Circular Accelerators: The electrodynamic accelerator accelerates the elementary particles in a circular path. The radiation of the particles towards the tangent of the circular path is known as synchrotron light.

    Electromagnetic Accelerator

       Electromagnetic Accelerator

Examples of electrodynamic accelerator are 

  • Magnetic Induction Accelerators
  • Betatron
  • Linear Induction Accelerators
  • Linear Accelerators
  • Circular or Cyclic RF Accelerators
  • Cyclotrons
  • Synchrocyclotrons
  • Isochronous Cyclotrons
  • Synchrotrons

Uses of Particle Accelerators

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Particle Accelerators are not only useful for research in the field of physics, but also in many technical and industrial fields. The estimated number of particle accelerators in the world is 30,000. Most accelerators are used in radiotherapy, ion implantation, industrial processing and research, biomedical research, etc. The main uses of particle accelerators are:

High Energy Physics

  • Particle Accelerators help the physicist to study the dynamics and structure of matter, space, and time. 
  • It creates beams of electrons, protons, and antiprotons high in energy. 
  • They are made to interact with each other or with simple nuclei. 
  • The largest particle accelerator is the Large Hadron Collider (LHC) at CERN, operating since 2009. 

Nuclear Physics and Isotopes Production

    • Particle accelerators are used to study the structure and properties of nuclei and condensed matter at extremely high temperatures
  • It is also used to recreate and study the phenomena that occurred in the universe, like Big Bang Theory. 
  • It is also used to produce proton beams which are helpful in the production of isotopes
  • An example of this type of accelerator is the Relativistic Heavy Ion Collider (RHIC) at Brookhaven National Laboratory.

Synchrotron Radiation 

  • Free-electron lasers are a special case of synchrotron radiation that provides shorter pulses with high temporal coherence. 
  • The prominent examples of Lasers are X-Rays, FELIX in Nijmegen, Netherlands, and TELBE in Dresden, Germany.

Low-Energy Machines and Particle Therapy

  • The low-energy accelerators use a single pair of electrodes with a few thousand volts of DC Voltage between them. 
  • This type of accelerator is known as an ion implanter and is used to manufacture integrated circuits
  • An example of this accelerator type is Cathode-Ray tubes found in television sets, X-rays, etc.
  • These accelerators are also used to convert AC voltage to DC voltage. 
  • Beams of accelerated nuclei at low energy are used as particle therapy for cancer treatment. 

Radiation Sterilization of Medical Devices

  • Electron Beam Processing is commonly used to sterilize medical equipment. 
  • As electron beams produce a high dose rate, less exposure time is required, reducing polymer degradation. 
  • Gamma radiation kills the bacteria by breaking down the bacterial DNA. 
  • Around 40% of medical instruments worldwide are cleaned using radiation. 

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Things to Remember

  • Particle Accelerator is a device that accelerates elementary particles and contains them in well-defined beams using electromagnetic fields. 
  • Electrostatic Accelerator and Electrodynamic Accelerator are the two types of particle accelerators. 
  • Electrostatic Accelerator is an accelerator that uses static electric fields to accelerate elementary particles. 
  • Electrodynamic Accelerator is the type of accelerator which uses dynamic electric fields to accelerate elementary particles. 
  • Some important uses of particle accelerators are High Energy PhysicsNuclear physics, isotope production, radiation sterilization of medical devices, etc.

Previous Year Questions

  1. The motion of a particle in straight line is an example of… (JKCET - 2013)
  2. A particle moves along Y-axis in such a way that its… (JCECE - 2005)
  3. A body can have acceleration even if its velocity is zero… (AIIMS - 2013)
  4. The displacement, velocity and acceleration in a simple harmonic motion… (JKCET 2013)
  5. The dimensional formula for acceleration, velocity and length…
  6. Average acceleration vector for a particle having uniform circular motion…
  7. The effective acceleration of a body, when thrown upwards with acceleration…
  8. A particle starts from rest. Its acceleration (a) versus time (t)... (JEE Advanced 2004)
  9. The depth d at which the value of acceleration due to gravity becomes… (KEAM)
  10. What happens to the acceleration due to gravity with the… (JKCET 2014)
  11. The acceleration of a moving body is found from the… (KEAM)
  12. The acceleration of any electron due to the… (BCECE 2010)
  13. The ratio of magnitudes of average velocity to average speed…

Sample Questions

Ques. What is Cockcroft–Walton Generator? (1 Mark)

Ans. Cockcroft-Walton Generator is an electric circuit that converts low-voltage AC or pulsing DC input to high DC voltage. It is named after physicists John Douglas Cockcroft and Ernest Thomas Sinton Walton, who used this circuit design to power their particle accelerator to perform the first artificial nuclear disintegration. 

Ques. What are some of the applications of a particle accelerator? (2 Marks)

Ans. Some of the applications of a particle accelerator are 

  • High-Energy Physics
  • Nuclear Physics and Isotopes Production 
  • Synchrotron Radiation 
  • Low-Energy Machines and Particle Therapy
  • Radiation Sterilization of Medical Devices

Ques. What is electromagnetic force? (1 Mark)

Ans. Electromagnetic force is defined as a type of force that allows the electrically charged particles to physically interact with each other. It is a combination of electrical and magnetic forces. It can either be attractive or repulsive. The electromagnetic force is also known as the Lorentz force. It is one of the four fundamental forces. 

Ques. What is Van de Graaff generator? (1 Mark)

Ans. Van de Graaff is an electrostatic generator that uses a moving belt to collect electric charge on a hollow metal globe situated on the top of an insulated column, thus creating high electric potential. American physicist Robert J. Van de Graaff created this generator in 1929. 

Ques. What is Betatrons Accelerator? (2 Marks)

Ans. Betatrons Accelerator is a circular magnetic induction accelerator for accelerating elementary particles. Donald Kerst invented it in 1940. The works of Norwegian-German scientist Rolf Wideroe originally inspired it. These accelerators use a doughnut-shaped ring magnet with increasing magnetic fields. The changing magnetic field accelerates the particles. 

The huge radioactivity loss has limited the use of these accelerators due to the very high speed of electrons compared to the very small orbit.

Ques. Who invented the particle accelerator? (1 Mark) 

Ans. Particle accelerator was invented by physicist Ernest Lawrence in the year 1930. He was inspired by the works of Norwegian Engineer Rolf Wideroe, who fromulated the concept of particle acceleration, including the resonance accelerator and the betatron accelerator.

Ques. What is Synchrotron Accelerator? (1 Mark)

Ans. Synchrotron Accelerators are accelerators in which the particles are accelerated in a ring with a constant radius. The beam aperture in a modern synchrotron accelerator is very small, and the magnetic field isn’t the entire orbit area. Examples of complex synchrotron accelerators are Tevatron, LEP, etc.

Ques. What are the examples of Electrodynamic accelerators? (2 Marks)

Ans. The examples of Electrodynamic Accelerator are 

  • Magnetic Induction Accelerators
  • Betatron
  • Linear Induction Accelerators
  • Linear Accelerators
  • Circular or Cyclic RF Accelerators
  • Cyclotrons
  • Synchrocyclotrons
  • Isochronous Cyclotrons
  • Synchrotrons

Ques. What is an Electrostatic Accelerator? (1 Mark)

Ans. An electrostatic Accelerator is a type of accelerator that uses static electric fields to accelerate elementary particles. These accelerators do not produce enough energy, so they are not preferred these days. 

Ques. What are Circular Accelerators? (1 Mark)

Ans. Circular Accelerators are a type of accelerator that allow continuous acceleration as the particles can move for an indefinite period of time. The radiation of the particles towards the tangent of the circular path is known as synchrotron light. It depends highly on the mass of the accelerating particles.

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CBSE CLASS XII Related Questions

1.

In a parallel plate capacitor with air between the plates, each plate has an area of 6 × 10–3 m2 and the distance between the plates is 3 mm. Calculate the capacitance of the capacitor. If this capacitor is connected to a 100 V supply, what is the charge on each plate of the capacitor?

      2.
      A closely wound solenoid of \(2000 \) turns and area of cross-section \(1.6 × 10^{-4}\  m^2\), carrying a current of \(4.0 \ A\), is suspended through its centre allowing it to turn in a horizontal plane. 
      (a) What is the magnetic moment associated with the solenoid?
      (b) What is the force and torque on the solenoid if a uniform horizontal magnetic field of \(7.5 × 10^{-2}\  T\) is set up at an angle of \(30º\) with the axis of the solenoid?

          3.
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            • 120
            • 60
            • 40
            • 20

            4.

            Three capacitors each of capacitance 9 pF are connected in series. 

            (a) What is the total capacitance of the combination? 

            (b) What is the potential difference across each capacitor if the combination is connected to a 120 V supply?

                5.
                A circular disc is rotating about its own axis. An external opposing torque 0.02 Nm is applied on the disc by which it comes rest in 5 seconds. The initial angular momentum of disc is

                  • $0.1\,kgm^2s^{-1}$
                  • $0.04\,kgm^2s^{-1}$
                  • $0.025\,kgm^2s^{-1}$
                  • $0.01\,kgm^2s^{-1}$

                  6.
                  A series LCR circuit with R = 20 W, L = 1.5 H and C = 35 μF is connected to a variable-frequency 200 V ac supply. When the frequency of the supply equals the natural frequency of the circuit, what is the average power transferred to the circuit in one complete cycle?

                      CBSE CLASS XII Previous Year Papers

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