TY - GEN
T1 - Capabilities of terahertz super-radiance from electron bunches moving in micro-undulators
AU - Balal, N.
AU - Bratman, V. L.
AU - Lurie, Yu
AU - Friedman, A.
N1 - Publisher Copyright:
Content from this work may be used under the terms of the CC BY 3.0 licence (© 2019). Any distribution of this work must maintain attribution to the author(s).
PY - 2019
Y1 - 2019
N2 - An available frequency range of powerful coherent radiation from sub-picosecond and picosecond bunches with high charge and comparatively moderate particle energy of 3 - 6 MeV that are formed in laser-driven linacs significantly extends if one uses a micro-undulator. Such an undulator with a helical symmetry and a high transverse field can be implemented by redistributing a strong uniform magnetic field by a helical ferromagnetic or copper insertion. According to simulations and experiments with prototypes, a steel helix with a period of (8-10) mm and an inner diameter of (2-2.5) mm inserted in the 3T-field of a solenoid can provide a helical undulator field with the same periodicity and an amplitude of about of 0.6 T. Using a more complex hybrid system with a permanently magnetized helical structure can increase this value up to 1.1 T. The necessary helices can be manufactured on the machine, assembled from steel wires, formed from powder placed into a hollow helical shell or 3D - printed. Simulations based on the WB3D code demonstrate that using such undulators with the length of (30-40) cm enable single-mode super-radiance from bunches with charge of 1 nC and duration of 2 ps moving in an over-sized waveguide in frequency range of 3-5 THz. The calculated efficiency of such process many times exceeds efficiency that can be obtained with short bunches of the same initial density.
AB - An available frequency range of powerful coherent radiation from sub-picosecond and picosecond bunches with high charge and comparatively moderate particle energy of 3 - 6 MeV that are formed in laser-driven linacs significantly extends if one uses a micro-undulator. Such an undulator with a helical symmetry and a high transverse field can be implemented by redistributing a strong uniform magnetic field by a helical ferromagnetic or copper insertion. According to simulations and experiments with prototypes, a steel helix with a period of (8-10) mm and an inner diameter of (2-2.5) mm inserted in the 3T-field of a solenoid can provide a helical undulator field with the same periodicity and an amplitude of about of 0.6 T. Using a more complex hybrid system with a permanently magnetized helical structure can increase this value up to 1.1 T. The necessary helices can be manufactured on the machine, assembled from steel wires, formed from powder placed into a hollow helical shell or 3D - printed. Simulations based on the WB3D code demonstrate that using such undulators with the length of (30-40) cm enable single-mode super-radiance from bunches with charge of 1 nC and duration of 2 ps moving in an over-sized waveguide in frequency range of 3-5 THz. The calculated efficiency of such process many times exceeds efficiency that can be obtained with short bunches of the same initial density.
UR - http://www.scopus.com/inward/record.url?scp=85084614569&partnerID=8YFLogxK
U2 - 10.18429/JACoW-FEL2019-WEP086
DO - 10.18429/JACoW-FEL2019-WEP086
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AN - SCOPUS:85084614569
T3 - Proceedings of the 39th International Free-Electron Laser Conference, FEL 2019
SP - 517
EP - 520
BT - Proceedings of the 39th International Free-Electron Laser Conference, FEL 2019
T2 - 39th International Free-Electron Laser Conference, FEL 2019
Y2 - 26 August 2019 through 30 August 2019
ER -