IPAC2015 - List of Authors (Alacakir, A.)

Paper	Title	Page
WEPHA051	Development of a Hybrid Power Supply and RF Transmission Line for SANAEM RFQ Accelerator	3228
	S. Ogur Bogazici University, Bebek / Istanbul, Turkey F. Ahiska EPROM Electronic Project & Microwave Ind. and Trade Ltd. Co., Ankara, Turkey A. Alacakir SNRTC, Ankara, Turkey G. Turemen Ankara University, Faculty of Sciences, Ankara, Turkey G. Unel UCI, Irvine, California, USA
	SANAEM Project Prometheus (SPP) has been building a proton beamline at MeV range. Its proton source, two solenoids, and a low energy diagnostic box have been already manufactured and installed. These are going to be followed by a 4-vane RFQ to be powered by two stage PSU. The first stage is a custom-built solid state amplifier providing 6 kW at 352.2 MHz operating frequency. The second stage, employing TH 595 tetrodes from Thales, will amplify this input to 160 kW in a short pulsed mode. The power transfer to the RFQ will be achieved by the means of a number of WR2300 full and half height waveguides, 3 1/8" rigid coaxial cables, joined by appropriate adapters and converters and by a custom design circulator. This paper summarizes the experience acquired during the design and the production of these components.
DOI •	reference for this paper ※ https://doi.org/10.18429/JACoW-IPAC2015-WEPHA051
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THPF103	Current Status of the SANAEM RFQ Accelerator Beamline	3952
	G. Turemen, B. Yasatekin Ankara University, Faculty of Sciences, Ankara, Turkey Y. Akgun, A.S. Bolukdemir TAEK, Ankara, Turkey A. Alacakir SNRTC, Ankara, Turkey A. Bozbey, A. Sahin TOBB ETU, Ankara, Turkey S. Erhan UCLA, Los Angeles, California, USA Ö. Mete UMAN, Manchester, United Kingdom S. Ogur, V. Yildiz Bogazici University, Bebek / Istanbul, Turkey S. Oz, A. Ozbey, H. Yildiz Istanbul University, Istanbul, Turkey G. Unel UCI, Irvine, California, USA F. Yaman IZTECH, Izmir, Turkey
	The design and production of the proton beamline of SPP, which aims to educate accelerator physicists and serve as particle accelerator technologies test bench, continues at TAEK-SANAEM as a multi-phase project. For the first phase, the 20 keV protons will be accelerated to 1.3 MeV by a single piece RFQ. Currently, the beam current and stability tests are ongoing for the Inductively Coupled Plasma ion source and the measured magnetic field maps of the Low Energy Beam Transport solenoids are being matched to the RFQ acceptance with various beam configurations of the ion source by using computer simulations. The production of the RFQ cavity was started by using high grade aluminum material which will be subsequently coated by Copper to reduce the RF losses. The installation of the low energy diagnostics box was also completed. On the RF side, the development of the hybrid power supply based on solid state and tetrode amplifiers continues. All RF transmission components are already produced with the exception of the circulator and the power coupling antenna which are in the manufacture and design phases, respectively. The acceptance tests of the produced RF components are ongoing. This work summarizes the design, production and test phases of the above mentioned SPP proton beamline components.
DOI •	reference for this paper ※ https://doi.org/10.18429/JACoW-IPAC2015-THPF103
Export •	reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)

Paper

Title

Page

Development of a Hybrid Power Supply and RF Transmission Line for SANAEM RFQ Accelerator

3228

S. Ogur
Bogazici University, Bebek / Istanbul, Turkey
F. Ahiska
EPROM Electronic Project & Microwave Ind. and Trade Ltd. Co., Ankara, Turkey
A. Alacakir
SNRTC, Ankara, Turkey
G. Turemen
Ankara University, Faculty of Sciences, Ankara, Turkey
G. Unel
UCI, Irvine, California, USA

SANAEM Project Prometheus (SPP) has been building a proton beamline at MeV range. Its proton source, two solenoids, and a low energy diagnostic box have been already manufactured and installed. These are going to be followed by a 4-vane RFQ to be powered by two stage PSU. The first stage is a custom-built solid state amplifier providing 6 kW at 352.2 MHz operating frequency. The second stage, employing TH 595 tetrodes from Thales, will amplify this input to 160 kW in a short pulsed mode. The power transfer to the RFQ will be achieved by the means of a number of WR2300 full and half height waveguides, 3 1/8" rigid coaxial cables, joined by appropriate adapters and converters and by a custom design circulator. This paper summarizes the experience acquired during the design and the production of these components.

DOI •

reference for this paper ※ https://doi.org/10.18429/JACoW-IPAC2015-WEPHA051

Export •

reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)

THPF103

Current Status of the SANAEM RFQ Accelerator Beamline

3952

G. Turemen, B. Yasatekin
Ankara University, Faculty of Sciences, Ankara, Turkey
Y. Akgun, A.S. Bolukdemir
TAEK, Ankara, Turkey
A. Alacakir
SNRTC, Ankara, Turkey
A. Bozbey, A. Sahin
TOBB ETU, Ankara, Turkey
S. Erhan
UCLA, Los Angeles, California, USA
Ö. Mete
UMAN, Manchester, United Kingdom
S. Ogur, V. Yildiz
Bogazici University, Bebek / Istanbul, Turkey
S. Oz, A. Ozbey, H. Yildiz
Istanbul University, Istanbul, Turkey
G. Unel
UCI, Irvine, California, USA
F. Yaman
IZTECH, Izmir, Turkey

The design and production of the proton beamline of SPP, which aims to educate accelerator physicists and serve as particle accelerator technologies test bench, continues at TAEK-SANAEM as a multi-phase project. For the first phase, the 20 keV protons will be accelerated to 1.3 MeV by a single piece RFQ. Currently, the beam current and stability tests are ongoing for the Inductively Coupled Plasma ion source and the measured magnetic field maps of the Low Energy Beam Transport solenoids are being matched to the RFQ acceptance with various beam configurations of the ion source by using computer simulations. The production of the RFQ cavity was started by using high grade aluminum material which will be subsequently coated by Copper to reduce the RF losses. The installation of the low energy diagnostics box was also completed. On the RF side, the development of the hybrid power supply based on solid state and tetrode amplifiers continues. All RF transmission components are already produced with the exception of the circulator and the power coupling antenna which are in the manufacture and design phases, respectively. The acceptance tests of the produced RF components are ongoing. This work summarizes the design, production and test phases of the above mentioned SPP proton beamline components.

DOI •

reference for this paper ※ https://doi.org/10.18429/JACoW-IPAC2015-THPF103

Export •

reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)