The LIDOS.RFQ.Designer development

Boris Bondarev, Alexander Durkin, Yuri Ivanov, Igor Shumakov, Stanislav Vinogradov, Alexander Ovsyannikov, Dmitri Ovsyannikov

Research output

23 Citations (Scopus)

Abstract

The LIDOS.RFQ.Designer code package gives users the possibility to proceed successfully from input data up to RFQ channel design and space-charge-dominated beam simulation. The code main feature is a maximum of scientific visualization for each calculation step. The package contains codes with three levels of mathematical model complexity. The first-level codes make not only a preliminary choice of the main parameter arrays on the basis of a simplified physical model but also chosen design optimization. In the case of high-current CW RFQ radiation purity (minimum of lost particles) is considered as the main optimization criteria. The second-level codes are used for RF field calculations taking into account the real shape of the RFQ vanes. The third-level codes are based on complex PIC-models that are needed for beam simulation in the chosen channel version.

Original languageEnglish
Pages2947-2949
Number of pages3
Publication statusPublished - 1 Dec 2001
Event2001 Particle Accelerator Conference - Chicago, IL
Duration: 18 Jun 200122 Jun 2001

Conference

Conference2001 Particle Accelerator Conference
CountryUnited States
CityChicago, IL
Period18/06/0122/06/01

Fingerprint

Data visualization
Electric space charge
Mathematical models
Radiation
Design optimization

Scopus subject areas

  • Engineering(all)

Cite this

Bondarev, B., Durkin, A., Ivanov, Y., Shumakov, I., Vinogradov, S., Ovsyannikov, A., & Ovsyannikov, D. (2001). The LIDOS.RFQ.Designer development. 2947-2949. Paper presented at 2001 Particle Accelerator Conference, Chicago, IL, .
Bondarev, Boris ; Durkin, Alexander ; Ivanov, Yuri ; Shumakov, Igor ; Vinogradov, Stanislav ; Ovsyannikov, Alexander ; Ovsyannikov, Dmitri. / The LIDOS.RFQ.Designer development. Paper presented at 2001 Particle Accelerator Conference, Chicago, IL, .3 p.
@conference{8aace003f9fc43369ebad630049cd22e,
title = "The LIDOS.RFQ.Designer development",
abstract = "The LIDOS.RFQ.Designer code package gives users the possibility to proceed successfully from input data up to RFQ channel design and space-charge-dominated beam simulation. The code main feature is a maximum of scientific visualization for each calculation step. The package contains codes with three levels of mathematical model complexity. The first-level codes make not only a preliminary choice of the main parameter arrays on the basis of a simplified physical model but also chosen design optimization. In the case of high-current CW RFQ radiation purity (minimum of lost particles) is considered as the main optimization criteria. The second-level codes are used for RF field calculations taking into account the real shape of the RFQ vanes. The third-level codes are based on complex PIC-models that are needed for beam simulation in the chosen channel version.",
author = "Boris Bondarev and Alexander Durkin and Yuri Ivanov and Igor Shumakov and Stanislav Vinogradov and Alexander Ovsyannikov and Dmitri Ovsyannikov",
year = "2001",
month = "12",
day = "1",
language = "English",
pages = "2947--2949",
note = "2001 Particle Accelerator Conference ; Conference date: 18-06-2001 Through 22-06-2001",

}

Bondarev, B, Durkin, A, Ivanov, Y, Shumakov, I, Vinogradov, S, Ovsyannikov, A & Ovsyannikov, D 2001, 'The LIDOS.RFQ.Designer development' Paper presented at, Chicago, IL, 18/06/01 - 22/06/01, pp. 2947-2949.

The LIDOS.RFQ.Designer development. / Bondarev, Boris; Durkin, Alexander; Ivanov, Yuri; Shumakov, Igor; Vinogradov, Stanislav; Ovsyannikov, Alexander; Ovsyannikov, Dmitri.

2001. 2947-2949 Paper presented at 2001 Particle Accelerator Conference, Chicago, IL, .

Research output

TY - CONF

T1 - The LIDOS.RFQ.Designer development

AU - Bondarev, Boris

AU - Durkin, Alexander

AU - Ivanov, Yuri

AU - Shumakov, Igor

AU - Vinogradov, Stanislav

AU - Ovsyannikov, Alexander

AU - Ovsyannikov, Dmitri

PY - 2001/12/1

Y1 - 2001/12/1

N2 - The LIDOS.RFQ.Designer code package gives users the possibility to proceed successfully from input data up to RFQ channel design and space-charge-dominated beam simulation. The code main feature is a maximum of scientific visualization for each calculation step. The package contains codes with three levels of mathematical model complexity. The first-level codes make not only a preliminary choice of the main parameter arrays on the basis of a simplified physical model but also chosen design optimization. In the case of high-current CW RFQ radiation purity (minimum of lost particles) is considered as the main optimization criteria. The second-level codes are used for RF field calculations taking into account the real shape of the RFQ vanes. The third-level codes are based on complex PIC-models that are needed for beam simulation in the chosen channel version.

AB - The LIDOS.RFQ.Designer code package gives users the possibility to proceed successfully from input data up to RFQ channel design and space-charge-dominated beam simulation. The code main feature is a maximum of scientific visualization for each calculation step. The package contains codes with three levels of mathematical model complexity. The first-level codes make not only a preliminary choice of the main parameter arrays on the basis of a simplified physical model but also chosen design optimization. In the case of high-current CW RFQ radiation purity (minimum of lost particles) is considered as the main optimization criteria. The second-level codes are used for RF field calculations taking into account the real shape of the RFQ vanes. The third-level codes are based on complex PIC-models that are needed for beam simulation in the chosen channel version.

UR - http://www.scopus.com/inward/record.url?scp=0035570543&partnerID=8YFLogxK

M3 - Paper

AN - SCOPUS:0035570543

SP - 2947

EP - 2949

ER -

Bondarev B, Durkin A, Ivanov Y, Shumakov I, Vinogradov S, Ovsyannikov A et al. The LIDOS.RFQ.Designer development. 2001. Paper presented at 2001 Particle Accelerator Conference, Chicago, IL, .