Particle beam
View article: Beam Steering and Radiation Generation of Electrons in Bent Crystals in the Sub-GeV Domain
Beam Steering and Radiation Generation of Electrons in Bent Crystals in the Sub-GeV Domain Open
We present an investigation into beam steering and radiation emission by sub-GeV electrons traversing bent silicon crystals. Using 855, 600, and 300~MeV electron beams at the Mainz Microtron (MAMI), we explored orientational coherent effec…
View article: Beam Steering and Radiation Generation of Electrons in Bent Crystals in the Sub-GeV Domain
Beam Steering and Radiation Generation of Electrons in Bent Crystals in the Sub-GeV Domain Open
We present an investigation into beam steering and radiation emission by sub-GeV electrons traversing bent silicon crystals. Using 855, 600, and 300~MeV electron beams at the Mainz Microtron (MAMI), we explored orientational coherent effec…
View article: Automated RF Phase Adjustment for Beam Stabilization in the Fermilab Linac
Automated RF Phase Adjustment for Beam Stabilization in the Fermilab Linac Open
The Fermilab Linac experiences longitudinal beam phase drift, leading to increased particle loss, conventionally corrected through labor-intensive manual RF adjustments. This project explores machine learning-based automation for drift cor…
View article: Relativistic quantum mechanics of charged vortex particles accelerated in a uniform electric field
Relativistic quantum mechanics of charged vortex particles accelerated in a uniform electric field Open
The relativistic quantum-mechanical description of a charged Laguerre-Gauss beam accelerated in a uniform electric field has been fulfilled. Stationary wave eigenfunctions are rigorously derived. The evolution of the beam parameters during…
View article: Automated RF Phase Adjustment for Beam Stabilization in the Fermilab Linac
Automated RF Phase Adjustment for Beam Stabilization in the Fermilab Linac Open
The Fermilab Linac experiences longitudinal beam phase drift, leading to increased particle loss, conventionally corrected through labor-intensive manual RF adjustments. This project explores machine learning-based automation for drift cor…
View article: SERM Technology: Breaking the Density-Emittance Trade-off in Particle Beam Applications from Nuclear Energy to Space Propulsion
SERM Technology: Breaking the Density-Emittance Trade-off in Particle Beam Applications from Nuclear Energy to Space Propulsion Open
We present SERM (Singularity of Enhancement due to Reduced Mileage) - a universal physical principle enabling the breakthrough overcoming of the fundamental density-emittance trade-off in particle beam physics. By creating controlled…
View article: SERM Technology: Breaking the Density-Emittance Trade-off in Particle Beam Applications from Nuclear Energy to Space Propulsion
SERM Technology: Breaking the Density-Emittance Trade-off in Particle Beam Applications from Nuclear Energy to Space Propulsion Open
We present SERM (Singularity of Enhancement due to Reduced Mileage) - a universal physical principle enabling the breakthrough overcoming of the fundamental density-emittance trade-off in particle beam physics. By creating controlled geome…
View article: Drive beam depletion with multi-Joule energy transfer in a plasma wakefield accelerator
Drive beam depletion with multi-Joule energy transfer in a plasma wakefield accelerator Open
A collider based on beam-driven plasma wakefield acceleration will require the drive beam to transfer 10-100s of Joules to the plasma in each stage, with a drive-to-wake energy transfer efficiency exceeding 70%. Using an all-optical plasma…
View article: Drive beam depletion with multi-Joule energy transfer in a plasma wakefield accelerator
Drive beam depletion with multi-Joule energy transfer in a plasma wakefield accelerator Open
A collider based on beam-driven plasma wakefield acceleration will require the drive beam to transfer 10-100s of Joules to the plasma in each stage, with a drive-to-wake energy transfer efficiency exceeding 70%. Using an all-optical plasma…
View article: Investigation of monolithic active pixel sensor for inner tracking system
Investigation of monolithic active pixel sensor for inner tracking system Open
This dissertation presents an in-depth investigation of Monolithic Active Pixel Sensors (MAPS) and their application in high-energy physics experiments, focusing on advancements in sensor technology for the ALICE experiment at LHC. A new M…
View article: Investigation of monolithic active pixel sensor for inner tracking system
Investigation of monolithic active pixel sensor for inner tracking system Open
This dissertation presents an in-depth investigation of Monolithic Active Pixel Sensors (MAPS) and their application in high-energy physics experiments, focusing on advancements in sensor technology for the ALICE experiment at LHC. A new M…
View article: Production of Light Dark Particles from Nonlinear Compton Scattering Between Intense Laser and Muon or Proton Beam
Production of Light Dark Particles from Nonlinear Compton Scattering Between Intense Laser and Muon or Proton Beam Open
The laser of an intense electromagnetic field promotes the studies of strong-field particle physics in high-intensity frontier. Particle accelerator facilities in the world produce high-quality muon and proton beams. In this work, we propo…
View article: Production of Light Dark Particles from Nonlinear Compton Scattering Between Intense Laser and Muon or Proton Beam
Production of Light Dark Particles from Nonlinear Compton Scattering Between Intense Laser and Muon or Proton Beam Open
The laser of an intense electromagnetic field promotes the studies of strong-field particle physics in high-intensity frontier. Particle accelerator facilities in the world produce high-quality muon and proton beams. In this work, we propo…
View article: A Diffusive Model for Radio-Frequency Knock-Out Slow Extraction
A Diffusive Model for Radio-Frequency Knock-Out Slow Extraction Open
Slow resonant extraction from synchrotrons via radio-frequency knock-out is a well-established technique to deliver charged particle beams for various applications. In this contribution, we present explicit analytical expressions for calcu…
View article: Spectral Form Function with Applications in Beam Physics
Spectral Form Function with Applications in Beam Physics Open
To describe longitudinal fine structure like microbunching within a particle beam, a classical approach is to define a bunching factor which is the Fourier transform of the particle longitudinal density distribution. Such a 1D definition o…
View article: A Diffusive Model for Radio-Frequency Knock-Out Slow Extraction
A Diffusive Model for Radio-Frequency Knock-Out Slow Extraction Open
Slow resonant extraction from synchrotrons via radio-frequency knock-out is a well-established technique to deliver charged particle beams for various applications. In this contribution, we present explicit analytical expressions for calcu…
View article: Spectral Form Function with Applications in Beam Physics
Spectral Form Function with Applications in Beam Physics Open
To describe longitudinal fine structure like microbunching within a particle beam, a classical approach is to define a bunching factor which is the Fourier transform of the particle longitudinal density distribution. Such a 1D definition o…
View article: Characterization of explosives in a controlled blast chamber using single-particle mass spectrometer for post-blast particle analysis
Characterization of explosives in a controlled blast chamber using single-particle mass spectrometer for post-blast particle analysis Open
The detection and characterization of post-blast residues is critical for forensic attribution, explosive safety assessments, and environmental monitoring. In this study, five high explosives, HMX, TNT, Composition B, HNS, and PETN, were d…
View article: Characterization of commercial EJ-212 PVT scintillators as proton beam diagnostics. Luminescent study and Birks coefficients
Characterization of commercial EJ-212 PVT scintillators as proton beam diagnostics. Luminescent study and Birks coefficients Open
Plastic scintillators exhibit great versatility in radiation detection, making them essential diagnostic tools in numerous scientific areas. Their application in characterizing charged particle beams – whether from particle accelerators or…
View article: IsoDAR@Yemilab: Preliminary design report—volume II (beam transport, neutrino source, and shielding)
IsoDAR@Yemilab: Preliminary design report—volume II (beam transport, neutrino source, and shielding) Open
This Preliminary Design Report (PDR) describes the IsoDAR electron-antineutrino source in two volumes which are mostly site-independent and describe the cyclotron driver providing a 60 MeV, 10 mA proton beam (Volume I); and the Medium Ener…
View article: Full-cycle, noninvasive emittance monitoring with the beam gas curtain monitor at the LHC
Full-cycle, noninvasive emittance monitoring with the beam gas curtain monitor at the LHC Open
The large energy range and high intensity of current hadron accelerators, such as the Large Hadron Collider (LHC) and its planned high-luminosity upgrade, pose great challenges to beam measurements. The Beam Gas Curtain presents an accurat…
View article: Superb-40 Systems Within Density Structures: Dissolution of Gaseous Particle Accelerators Into Computational Harmonic Synchronization
Superb-40 Systems Within Density Structures: Dissolution of Gaseous Particle Accelerators Into Computational Harmonic Synchronization Open
Particle Accelerators
View article: Superb-40 Interflux: QED -Guided Gaseous Particle Accelerator Architecture for Mars Atmospheric Formation
Superb-40 Interflux: QED -Guided Gaseous Particle Accelerator Architecture for Mars Atmospheric Formation Open
Particle Accelerators; Mars
View article: About maximum energy acquired by a charged particles in the field of a plane electromagnetic wave
About maximum energy acquired by a charged particles in the field of a plane electromagnetic wave Open
The energy characteristics of a relativistic charged particle in the field of a plane electromagnetic wave of a given amplitude are studied. The dependence of the particle's energy on its phase coordinate is obtained. The maximum value of …
View article: About maximum energy acquired by a charged particles in the field of a plane electromagnetic wave
About maximum energy acquired by a charged particles in the field of a plane electromagnetic wave Open
The energy characteristics of a relativistic charged particle in the field of a plane electromagnetic wave of a given amplitude are studied. The dependence of the particle's energy on its phase coordinate is obtained. The maximum value of …
View article: Grant White Paper: Quantum Hydraulic Coupling and Particle Accelerators in Computing
Grant White Paper: Quantum Hydraulic Coupling and Particle Accelerators in Computing Open
View article: Grant White Paper: Quantum Hydraulic Coupling and Particle Accelerators in Computing
Grant White Paper: Quantum Hydraulic Coupling and Particle Accelerators in Computing Open
View article: Particle Accelerators As Internal Computational Organs: Quantum Hydraulic Coupling and Sonar Harmonic Synchronization in Mobius Systems
Particle Accelerators As Internal Computational Organs: Quantum Hydraulic Coupling and Sonar Harmonic Synchronization in Mobius Systems Open
Particle Accelerators
View article: Particle Accelerators As Internal Computational Organs: Quantum Hydraulic Coupling and Sonar Harmonic Synchronization in Mobius Systems
Particle Accelerators As Internal Computational Organs: Quantum Hydraulic Coupling and Sonar Harmonic Synchronization in Mobius Systems Open
Particle Accelerators
View article: Supersonic gas curtain-based in-vivo transverse beam profile monitoring for medical accelerators
Supersonic gas curtain-based in-vivo transverse beam profile monitoring for medical accelerators Open
To ensure patient safety, treatment effectiveness, and facility efficiency, each ion beam therapy facility requires a complete online characterization of the charged particle beam. Existing dosimetry methods are either limited in the infor…