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Transversely pumped laser driven particle accelerator.

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We developed Transversely Pumped Acceleration (TPA) to accelerate electrons and ions using laser beamlets. This novel scheme achieves high energy gains, showing potential for compact accelerators in physics and medicine.

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Area of Science:

  • Plasma Physics
  • Laser-driven Acceleration

Background:

  • Particle accelerators are crucial for scientific research and medical applications.
  • Existing acceleration techniques face limitations such as dephasing and size constraints.

Purpose of the Study:

  • To introduce and theoretically validate a novel acceleration scheme, Transversely Pumped Acceleration (TPA).
  • To demonstrate the potential for high-gradient acceleration of electrons and ions in underdense plasma.

Main Methods:

  • Theoretical modeling of laser beamlet interactions in plasma.
  • Particle-in-cell simulations to validate the acceleration mechanism.
  • Precise control of laser injection timing and beamlet spacing.

Main Results:

  • Demonstrated acceleration of 1.12 GeV proton beams within 3.6 mm of plasma.
  • Achieved electron acceleration gradients on the order of 1 TeV/m.
  • Circumvented the dephasing limitation inherent in some acceleration schemes.

Conclusions:

  • Transversely Pumped Acceleration (TPA) offers a promising new avenue for compact and efficient particle acceleration.
  • The tunable phase velocity plasma wave generated by TPA enables precise control over particle acceleration.
  • Potential applications include compact accelerators for medical physics and high-energy physics colliders.