Reference Search

Favourites

For Word

[n]	S. Sierra et al., “LCLSII Fundamental Power Coupler Manufacturing Status and Lesson Learned”, in Proc. LINAC'18, Beijing, China, Sep. 2018, pp. 893-894. doi:10.18429/JACoW-LINAC2018-THPO092

[n]	D. P. Weygand, “Artificial Intelligence and Accelerator Control”, in Proc. PAC'87, Washington D.C., USA, Mar. 1987, pp. 564-567. 

[n]	S. Samsam et al., “The HOMEN Model: An Estimator of High Order Modes Evolution in an Energy Recovery Linac”, in Proc. IPAC'22, Bangkok, Thailand, Jun. 2022, pp. 2342-2345. doi:10.18429/JACoW-IPAC2022-WEPOMS042

[n]	S. Laycock et al., “New Developments in Ion Sources at IBA”, in Proc. EPAC'90, Nice, France, Jun. 1990, pp. 653-656. 

[n]	G. Wuestefeld and P. F. Meads Jr, “FFAG Synchrotrons for Heavy Ion Acceleration”, in Proc. PAC'87, Washington D.C., USA, Mar. 1987, pp. 842-845. 

[n]	K. Beilenhoff, M. Droba, H. L. Hartnagel, and U. Ratzinger, “180 Degree Bending Systems for High Current Heavy Ion Linacs”, in Proc. EPAC'00, Vienna, Austria, Jun. 2000, paper MOP4B07, pp. 1483-1485. 

[n]	V. Wu et al., “Antiproton Acceleration in the Fermilab Main Injector Using 2.5 MHz (H=28) and 53 MHz (H=588) RF Systems”, in Proc. PAC'03, Portland, OR, USA, May 2003, paper TPPB073, pp. 1769-1771. 

[n]	T. Stengler, K. Aulenbacher, F. Hug, D. Simon, and T. Kuerzeder, “Cryomodule Fabrication and Modification for High Current Operation at the Mainz Energy Recovering Superconducting Accelerator MESA”, in Proc. SRF'17, Lanzhou, China, Jul. 2017, pp. 297-300. doi:10.18429/JACoW-SRF2017-MOPB101

[n]	K. R. Shin, A. E. Fathy, and Y. W. Kang, “Double-Gap Rebuncher Cavity Design of SNS MEBT”, in Proc. IPAC'12, New Orleans, LA, USA, May 2012, paper THPPP069, pp. 3898-3900. 

For LaTeX

%\cite{Sierra:LINAC18-THPO092} \bibitem{Sierra:LINAC18-THPO092} S. Sierra \emph{et al.}, \textquotedblleft{LCLSII Fundamental Power Coupler Manufacturing Status and Lesson Learned}\textquotedblright, in \emph{Proc. LINAC’18}, Beijing, China, Sep. 2018, pp. 893--894. \doi{10.18429/JACoW-LINAC2018-THPO092} %\cite{Weyg:PAC87} \bibitem{Weyg:PAC87} D. P. Weygand, \textquotedblleft{Artificial Intelligence and Accelerator Control}\textquotedblright, in \emph{Proc. PAC’87}, Washington D.C., USA, Mar. 1987, pp. 564--567. %\cite{Samsam:IPAC22-WEPOMS042} \bibitem{Samsam:IPAC22-WEPOMS042} S. Samsam \emph{et al.}, \textquotedblleft{The HOMEN Model: An Estimator of High Order Modes Evolution in an Energy Recovery Linac}\textquotedblright, in \emph{Proc. IPAC’22}, Bangkok, Thailand, Jun. 2022, pp. 2342--2345. \doi{10.18429/JACoW-IPAC2022-WEPOMS042} %\cite{Laycock:EPAC90} \bibitem{Laycock:EPAC90} S. Laycock \emph{et al.}, \textquotedblleft{New Developments in Ion Sources at IBA}\textquotedblright, in \emph{Proc. EPAC’90}, Nice, France, Jun. 1990, pp. 653--656. %\cite{Wuestefeld:PAC87} \bibitem{Wuestefeld:PAC87} G. Wuestefeld and P. F. Meads Jr, \textquotedblleft{FFAG Synchrotrons for Heavy Ion Acceleration}\textquotedblright, in \emph{Proc. PAC’87}, Washington D.C., USA, Mar. 1987, pp. 842--845. %\cite{Beilenhoff:EPAC00-MOP4B07} \bibitem{Beilenhoff:EPAC00-MOP4B07} K. Beilenhoff, M. Droba, H. L. Hartnagel, and U. Ratzinger, \textquotedblleft{180 Degree Bending Systems for High Current Heavy Ion Linacs}\textquotedblright, in \emph{Proc. EPAC’00}, Vienna, Austria, Jun. 2000, paper MOP4B07, pp. 1483--1485. %\cite{Wu:PAC03-TPPB073} \bibitem{Wu:PAC03-TPPB073} V. Wu \emph{et al.}, \textquotedblleft{Antiproton Acceleration in the Fermilab Main Injector Using 2.5 MHz (H=28) and 53 MHz (H=588) RF Systems}\textquotedblright, in \emph{Proc. PAC’03}, Portland, OR, USA, May 2003, paper TPPB073, pp. 1769--1771. %\cite{Stengler:SRF17-MOPB101} \bibitem{Stengler:SRF17-MOPB101} T. Stengler, K. Aulenbacher, F. Hug, D. Simon, and T. Kuerzeder, \textquotedblleft{Cryomodule Fabrication and Modification for High Current Operation at the Mainz Energy Recovering Superconducting Accelerator MESA}\textquotedblright, in \emph{Proc. SRF’17}, Lanzhou, China, Jul. 2017, pp. 297--300. \doi{10.18429/JACoW-SRF2017-MOPB101} %\cite{Shin:IPAC12-THPPP069} \bibitem{Shin:IPAC12-THPPP069} K. R. Shin, A. E. Fathy, and Y. W. Kang, \textquotedblleft{Double-Gap Rebuncher Cavity Design of SNS MEBT}\textquotedblright, in \emph{Proc. IPAC’12}, New Orleans, LA, USA, May 2012, paper THPPP069, pp. 3898--3900.

For BibTeX

@inproceedings{sierra:linac18-thpo092, author = {S. Sierra and others}, title = {{LCLSII Fundamental Power Coupler Manufacturing Status and Lesson Learned}}, booktitle = {Proc. LINAC'18}, pages = {893--894}, paper = {THPO092}, venue = {Beijing, China}, series = {Linear Accelerator Conference}, number = {29}, publisher = {JACoW Publishing, Geneva, Switzerland}, month = {1}, year = {2019}, issn = {2226-0366}, isbn = {978-3-95-450194-6}, doi = {10.18429/JACoW-LINAC2018-THPO092}, url = {https://jacow.org/linac2018/papers/THPO092.pdf}, language = {english} } @inproceedings{weyg:pac87, author = {D. P. Weygand}, title = {{Artificial Intelligence and Accelerator Control}}, booktitle = {Proc. PAC'87}, pages = {564--567}, paper = {}, venue = {Washington D.C., USA, Mar. 1987}, publisher = {JACoW Publishing, Geneva, Switzerland}, language = {english} } @inproceedings{samsam:ipac22-wepoms042, author = {S. Samsam and others}, title = {{The HOMEN Model: An Estimator of High Order Modes Evolution in an Energy Recovery Linac}}, booktitle = {Proc. IPAC'22}, pages = {2342--2345}, paper = {WEPOMS042}, venue = {Bangkok, Thailand}, series = {International Particle Accelerator Conference}, number = {13}, publisher = {JACoW Publishing, Geneva, Switzerland}, month = {7}, year = {2022}, issn = {2673-5490}, isbn = {978-3-95-450227-1}, doi = {10.18429/JACoW-IPAC2022-WEPOMS042}, url = {https://jacow.org/IPAC2022/papers/WEPOMS042.pdf}, language = {english} } @inproceedings{laycock:epac90, author = {S. Laycock and others}, title = {{New Developments in Ion Sources at IBA}}, booktitle = {Proc. EPAC'90}, pages = {653--656}, paper = {}, venue = {Nice, France, Jun. 1990}, series = {European Particle Accelerator Conference}, number = {2}, publisher = {JACoW Publishing, Geneva, Switzerland}, language = {english} } @inproceedings{wuestefeld:pac87, author = {G. Wuestefeld and P. F. Meads Jr}, title = {{FFAG Synchrotrons for Heavy Ion Acceleration}}, booktitle = {Proc. PAC'87}, pages = {842--845}, paper = {}, venue = {Washington D.C., USA, Mar. 1987}, publisher = {JACoW Publishing, Geneva, Switzerland}, language = {english} } @inproceedings{beilenhoff:epac00-mop4b07, author = {K. Beilenhoff and M. Droba and H. L. Hartnagel and U. Ratzinger}, title = {{180 Degree Bending Systems for High Current Heavy Ion Linacs}}, booktitle = {Proc. EPAC'00}, pages = {1483--1485}, paper = {MOP4B07}, venue = {Vienna, Austria}, series = {European Particle Accelerator Conference}, number = {7}, publisher = {JACoW Publishing, Geneva, Switzerland}, month = {8}, year = {2000}, url = {https://jacow.org/e00/papers/MOP4B07.pdf}, language = {english} } @inproceedings{wu:pac03-tppb073, author = {V. Wu and others}, title = {{Antiproton Acceleration in the Fermilab Main Injector Using 2.5 MHz (H=28) and 53 MHz (H=588) RF Systems}}, booktitle = {Proc. PAC'03}, pages = {1769--1771}, paper = {TPPB073}, venue = {Portland, OR, USA, May 2003}, publisher = {JACoW Publishing, Geneva, Switzerland}, url = {https://jacow.org/p03/papers/TPPB073.pdf}, language = {english} } @inproceedings{stengler:srf17-mopb101, author = {T. Stengler and K. Aulenbacher and F. Hug and D. Simon and T. Kuerzeder}, title = {{Cryomodule Fabrication and Modification for High Current Operation at the Mainz Energy Recovering Superconducting Accelerator MESA}}, booktitle = {Proc. SRF'17}, pages = {297--300}, paper = {MOPB101}, venue = {Lanzhou, China, Jul. 2017}, publisher = {JACoW Publishing, Geneva, Switzerland}, doi = {10.18429/JACoW-SRF2017-MOPB101}, url = {https://jacow.org/srf2017/papers/MOPB101.pdf}, language = {english} } @inproceedings{shin:ipac12-thppp069, author = {K. R. Shin and A. E. Fathy and Y. W. Kang}, title = {{Double-Gap Rebuncher Cavity Design of SNS MEBT}}, booktitle = {Proc. IPAC'12}, pages = {3898--3900}, paper = {THPPP069}, venue = {New Orleans, LA, USA, May 2012}, publisher = {JACoW Publishing, Geneva, Switzerland}, url = {https://jacow.org/IPAC2012/papers/THPPP069.pdf}, language = {english} }

References

• S. Sierra et al., “LCLSII Fundamental Power Coupler Manufacturing Status and Lesson Learned”, in Proc. 29th Linear Accelerator Conf. (LINAC'18), Beijing, China, Sep. 2018, pp. 893-894.
• D. P. Weygand, “Artificial Intelligence and Accelerator Control”, in Proc. 12th Particle Accelerator Conf. (PAC'87), Washington D.C., USA, Mar. 1987, pp. 564-567.
• S. Samsam et al., “The HOMEN Model: An Estimator of High Order Modes Evolution in an Energy Recovery Linac”, in Proc. 13th Int. Particle Accelerator Conf. (IPAC'22), Bangkok, Thailand, Jun. 2022, pp. 2342-2345.
• S. Laycock et al., “New Developments in Ion Sources at IBA”, in Proc. 2nd European Particle Accelerator Conf. (EPAC'90), Nice, France, Jun. 1990, pp. 653-656.
• G. Wuestefeld and P. F. Meads Jr, “FFAG Synchrotrons for Heavy Ion Acceleration”, in Proc. 12th Particle Accelerator Conf. (PAC'87), Washington D.C., USA, Mar. 1987, pp. 842-845.
• K. Beilenhoff, M. Droba, H. L. Hartnagel, and U. Ratzinger, “180 Degree Bending Systems for High Current Heavy Ion Linacs”, in Proc. 7th European Particle Accelerator Conf. (EPAC'00), Vienna, Austria, Jun. 2000, paper MOP4B07, pp. 1483-1485.
• V. Wu et al., “Antiproton Acceleration in the Fermilab Main Injector Using 2.5 MHz (H=28) and 53 MHz (H=588) RF Systems”, in Proc. 20th Particle Accelerator Conf. (PAC'03), Portland, OR, USA, May 2003, paper TPPB073, pp. 1769-1771.
• T. Stengler, K. Aulenbacher, F. Hug, D. Simon, and T. Kuerzeder, “Cryomodule Fabrication and Modification for High Current Operation at the Mainz Energy Recovering Superconducting Accelerator MESA”, in Proc. 18th Int. Conf. RF Superconductivity (SRF'17), Lanzhou, China, Jul. 2017, pp. 297-300.
• K. R. Shin, A. E. Fathy, and Y. W. Kang, “Double-Gap Rebuncher Cavity Design of SNS MEBT”, in Proc. 3rd Int. Particle Accelerator Conf. (IPAC'12), New Orleans, LA, USA, May 2012, paper THPPP069, pp. 3898-3900.