Browsing by Author "Sroka, Artur"
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Item Eksploatacja Cyklotronu AIC - 144 przystosowanego do celów medycznych cz. 4(Institute of Nuclear Physics Polish Academy of Sciences, 2017) Bogdali, Paweł; Sulikowski, Jacek; Sroka, Artur; Rogóż-Duda, Agnieszka; Cieślik, Robert; Daniel, Krzysztof; Grzybek, Ryszard; Janik, Grzegorz; Lipka, Bogdan; Molęda, Janusz; Nowak, Tomasz; Pyzioł, Wojciech; Ruszel, Marek; Sałach, Bogusław; Sumera, MaciejIn 2016, eye therapy was transferred to the new Proteus-235 cyclotron. The work of Cyclotron AIC-144 has become research and development. Reducing the demand for a proton beam has contributed to significant advances in the modernization of the device. This report shows the current status of the cyclotron and presents the work that was made in 2016 and 2017: modernization of the control panel, reconstruction of the irradiation station in the experimental hall and a new program for controlling the power supplies.Item Eksploatacja Cyklotronu AIC-144 przystosowanego do celów medycznych(Institute of Nuclear Physics Polish Academy of Sciences, 2013) Sroka, Artur; Bogdali, Paweł; Cieślik, Robert; Grzybek, Ryszard; Lipka, Bogdan; Michałowski, Henryk; Molęda, Janusz; Norys, Tadeusz; Pyzioł, Wojciech; Rogóż, Agnieszka; Ruszel, Marek; Sałach, Bogusław; Sulikowski, Jacek; Sumera, MaciejCyclotron AIC-144, currently used in proton radiotherapy of eye melanoma, is located in Cracow at the Institute of Nuclear Physics Polish Academy of Sciences. The presented report describes the current state of the Cyclotron and summarizes the work that has recently been done in the Cyclotron AIC-144 Department. Work on improvement of the proton beam parameters has been carried out since 2004. The recent upgrading involved the RF generator, control system of correction coils, the vacuum system and ion source. Technical inspection in October 2013 confirmed the effectiveness of the adopted modification. Despite many years of service Cyclotron is in a good operating condition. Implementation of Quality Assurance procedures and timely technical inspections ensure long-term operation of the machine.Item Eksploatacja Cyklotronu AIC-144 przystosowanego do celów medycznych cz. 2(Institute of Nuclear Physics Polish Academy of Sciences, 2014) Rogóż-Duda, Agnieszka; Sumera, Maciej; Bogdali, Paweł; Cieślik, Robert; Grzybek, Ryszard; Koczot, Andrzej; Lipka, Bogdan; Michałowski, Henryk; Molęda, Janusz; Norys, Tadeusz; Pyzioł, Wojciech; Ruszel, Marek; Sałach, Bogusław; Sroka, Artur; Sulikowski, JacekCyclotron AIC-144 is located in Krakow at the Institute of Nuclear Physics. It is currently used in proton radiotherapy ocular melanoma. This report presents the current state of the cyclotron and presents the work that was done in 2014. The report describes the distillate flow control module in the primary cooling circuit cyclotron AIC-144, cooling system, temperature measurement system and quality management system. The report pays particular attention to the issue of innovation, complexity and precision of action components. To ensure a steady state operation of the cyclotron systems ensure the stability of the temperature of the distillate. In order to avoid deviations from the established requirements Cyclotron Department has created a quality management system.Item Eksploatacja Cyklotronu AIC-144 przystosowanego do celów medycznych cz. 3(Institute of Nuclear Physics Polish Academy of Sciences, 2015) Sroka, Artur; Rogóż-Duda, Agnieszka; Sumera, Maciej; Bogdali, Paweł; Cieślik, Robert; Grzybek, Ryszard; Lipka, Bogdan; Michałowski, Henryk; Molęda, Janusz; Norys, Tadeusz; Pyzioł, Wojciech; Ruszel, Marek; Sałach, Bogusław; Sulikowski, Jacek; Daniel, Krzysztof; Kochański, Wojciech; Wojas, DamianCyclotron AIC-144 forming part of the Cyclotron Center Bronowice was built as a universal device research and development, which enabled the acceleration of three types of particles: alpha, deuterons and protons with energies from 15 to 60 MeV. From 2012 on cyclotron AIC-144 is carried out proton therapy of eye tumors cooperation with the Jagiellonian University Hospital. This report presents the current state of the cyclotron and presents the work that was done in 2015: rebuilt power components cyclotron, the ion source, the leak detection system cooling water and new control system cyclotron.Item Operation regime of AIC-144 cyclotron for delivering 60 mev proton beam to the radiotherapy of eye melanoma(Institute of Nuclear Physics Polish Academy of Sciences, 2012) Cieślik, Robert; Daniel, Krzysztof; Grzybek, Ryszard; Guguła, Konrad; Janik, Grzegorz; Koczot, Andrzej; Lipka, Bogdan; Molęda, Janusz; Norys, Tadeusz; Pyzioł, Wojciech; Ruszel, Marek; Sałach, Bogusław; Sulikowski, Jacek; Sroka, Artur; Tarczoń, Ryszard; Amirkhanov, I.; Karamysheva, G.; Kiyan, I.; Morozov, N.; Samsonov, E.The latest computational and experimental results concerning 60 MeV proton beam acceleration and extraction in AIC-144 cyclotron of the Institute of Nuclear Physics (Krakow, Poland) are being considered. Improvement of RF system reliability at dee voltage of 60 kV and frequency of 26.26 MHz as well as precise shaping of the cyclotron magnetic field made it possible to accelerate the proton beam up to 60.5 MeV and to provide its extraction with overall efficiency ~35%. The beam is planned to be used for the long-term radiotherapy of eye melanoma in the year 2013.Item Przystosowywanie cyklotronu AIC-144 do protonowej radioterapii oka część 3. Maksymalizacja energii protonów, rewitalizacja generatora w.cz.(Institute of Nuclear Physics Polish Academy of Sciences, 2007) Daniel, Krzysztof; Guguła, Konrad; Grzybek, Ryszard; Janik, Grzegorz; Kisielowski, Andrzej; Bochenek-Dobrowolski, Ryszard; Lipka, Bogdan; Molęda, Janusz; Norys, Tadeusz; Pyzioł, Wojciech; Ruszel, Marek; Sałach, Bogusław; Sulikowski, Jacek; Sroka, Artur; Tarczoń, Ryszard; Włodek, LucynaThis article was devote to the adaptation of cyclotron AIC 144 to the radiotherapy of eye melanoma. First part described the optimization of energy and shapes the protons beam, which was made by the specialist from Joint Institute Nuclear Research in Dubna. The result of they work, was successful the energy of proton increased to 59 MeV and shape of the beam decreased. Second part described the renovation of ratio frequency generator. In order to improve the conductivity, all electrical connection was welded.Item Przystosowywanie cyklotronu AIC-144 do zastosowań medycznych Część 1. Optymalizacja nastaw(Institute of Nuclear Physics Polish Academy of Sciences, 2005) Daniel, Krzysztof; Doruch, Henryk; Lipka, Bogdan; Norys, Tadeusz; Sulikowski, Jacek; Sroka, ArturThe AIC-144 cyclotron at the Institute of Nuclear Physics has been upgraded to produce the beams, which could be applied for proton radiotherapy of eye melanoma. Acceleration, extraction and transport of the 56 MeV proton is described.Item Przystosowywanie cyklotronu AIC-144 do protonowej radioterapii oka część 4. Poprawa jakości próżni w komorze cyklotronu, usprawnienie systemu sterowania traktem wiązki, zmniejszenie obciążeń zmęczeniowych komory akceleracji(Institute of Nuclear Physics Polish Academy of Sciences, 2008) Daniel, Krzysztof; Cieślik, Robert; Guguła, Konrad; Grzybek, Ryszard; Janik, Grzegorz; Lipka, Bogdan; Molęda, Janusz; Norys, Tadeusz; Pyzioł, Wojciech; Ruszel, Marek; Sałach, Bogusław; Sulikowski, Jacek; Sroka, Artur; Tarczoń, Ryszard; Włodek, LucynaThis article concerns adaptation of the cyclotron AIC-144 to radiotherapy of eye melanoma. The first part of the article describes suppression of residual fumes inside the cyclotron chamber. In order to attain this new vacuum configuration turbomolecular pumps have been installed and the ion source has been supplied with hydrogen of high purity. The result was: better stability of the proton beam, increase of deflection coefficient and ion source life-span. Second part describes the system of control and power supply of transport ion beam to the therapy post. Next there is a description of the system which counteracts the mechanical stress in the cyclotron chamber. The both enterprises improve operational reliability, reduce downtime, increase comfort of service. The tests confirmed usefulness of the executed works.Item Przystosowywanie cyklotronu AIC-144 do protonowej radioterapii oka część 5. Stabilność wiązki protonów w cyklotronie AIC-144: wybrane parametry, przyczyny i przeciwdziałania niestabilności(Institute of Nuclear Physics Polish Academy of Sciences, 2009) Daniel, Krzysztof; Cieślik, Robert; Guguła, Konrad; Grzybek, Krzysztof; Grzybek, Ryszard; Janik, Grzegorz; Lipka, Bogdan; Molęda, Janusz; Norys, Tadeusz; Pyzioł, Wojciech; Ruszel, Marek; Sałach, Bogusław; Sulikowski, Jacek; Sroka, Artur; Tarczoń, Ryszard; Włodek, LucynaThe cyclotron AIC – 144 at IFJ PAN in Krakow has been intended to the proton therapy of the eye tumor. The non-standard requirements of the protons beam parameters for therapy, forced screw of the machine to do adaptation and improvement of the cyclotron systems. The last few years was dedicated to exchange the old systems to the new like: vacuum system, main magnet power supply, RF system, beam line system, beam line powers supplies. That work allowed doing the tests on the proton beam in treatment room. During tests the problems of protons beam stability of current and repeatability of protons beam of parameters has bean notice. Two themes have been presented in following article: the stability of the protons beam current in short time period; the repeatability of the protons beam parameters in long time period. Several factors can affect stability of current of protons beam. The most important are: work of ion source, long time of thermal stabilization of cyclotrons elements, variable of network of power supply. The main reason of repeatability of the protons beam parameters is capability of relocation acceleration chamber with respect to main magnet yoke.Item Przystosowywanie cyklotronu AIC-144 do protonowej radioterapii oka część 6.Wpływ stabilności temperatury cyklotronu AIC-144 na stabilność natężenia wyprowadzanej wiązki protonów(Institute of Nuclear Physics Polish Academy of Sciences, 2010) Daniel, Krzysztof; Grzybek, Ryszard; Janik, Grzegorz; Lipka, Bogdan; Pyzioł, Wojciech; Ruszel, Marek; Sałach, Bogusław; Sulikowski, Jacek; Sroka, Artur; Tarczoń, Ryszard; Włodek, LucynaThe cyclotron AIC – 144 at the Institute of Nuclear Physics Polish Academy of Sciences (IFJ PAN) in Krakow has been dedicated to the proton therapy of the protons eye tumor. In this application, the essential parameter is the stability of the proton beam current. The paper describes the relationship between the stability of the proton beam current and temperature of the cooling water supplied to various cyclotron parts which shape the beam. We noticed the dependence on the temperature itself and on the temperature gradient. Generally, better stability of the proton beam current, faster stabilization of the set beam parameters, better reproducibility, as well as less energy consumption are ensured at lower temperatures.Item Przystosowywanie cyklotronu AIC-144 do zastosowań medycznych część 2. Korekta pola magnetycznego, modernizacja traktu wiązki(Institute of Nuclear Physics Polish Academy of Sciences, 2006) Daniel, Krzysztof; Bochenek-Dobrowolski, Ryszard; Doruch, Henryk; Guguła, Konrad; Grzybek, Ryszard; Janik, Grzegorz; Kisielowski, Andrzej; Lipka, Bogdan; Molęda, Janusz; Norys, Tadeusz; Pyzioł, Wojciech; Sałach, Bogusław; Sulikowski, Jacek; Sroka, Artur; Tarczoń, Ryszard; Włodek, LucynaThe AIC-144 cyclotron at the Institute of Nuclear has been upgraded to produce the beams, which could be applied for proton radiotherapy of eye melanoma. For the improvement of quality of ion beam is necessary to better precision of forming the magnetic field inside the cyclotron chamber. It has been described the interdependent of precision of fitting the chamber of the cyclotron against ferrous pole pieces of the electromagnet on the magnetic field. Modernization of transporting ion beam to place of proton radiotherapy is described. Special emphasis is given to simplification of configuration of that transport and advantages of that modernization.Item Stanowisko cyklotronu AIC-144 do naświetlań wiązką protonów(Institute of Nuclear Physics Polish Academy of Sciences, 2016) Nowak, Tomasz; Sulikowski, Jacek; Bogdali, Paweł; Cieślik, Robert; Grzybek, Ryszard; Lipka, Bogdan; Molęda, Janusz; Ruszel, Marek; Sałach, Bogusław; Sroka, Artur; Sumera, Maciej; Pyzioł, Wojciech; Zbroja, Katarzyna; Rogóż-Duda, Agnieszka; Mojżeszek, Natalia; Ogrodowicz, Ewa; Durlak, Edyta; Mierzwińska, Gabriela; Rydygier, MarzenaW hali eksperymentalnej budynku cyklotronu AIC-144, na jednym z wyjść magnesu M2, ustawiono tymczasowe stanowisko do pomiarów parametrów wiązki protonowej. Kierunek prowadzenia wiązki ustawiono precyzyjnie wykorzystując niwelator oraz samopoziomujący się laser 3D. Wymieniono soczewki kwadrupolowe, a nowe ustawiono precyzyjnie względem osi wiązki. Wykonano szereg kolimatorów i uchwytów oraz podstawę do pozycjonowania kamery CCD na ławie optycznej. Stworzono procedurę wyprowadzania wiązki z wykorzystaniem tarcz pokrytych siarczkiem cynku ZnS(Ag) wraz z systemem kamer podglądu oraz zbudowanej w IFJ PAN kamery CCD. Wykorzystano kamerę CCD do obrazowania kształtu nierozproszonej oraz rozproszonej wiązki protonowej. Sprawdzono powtarzalność wyprowadzania wiązki oraz zoptymalizowano kształt wiązki. Za pomocą puszki Faraday’a zmierzono stosunek prądu rozproszonej i zogniskowanej wiązki na stanowisku pomiarowym do prądu ekstrakcji z cyklotronu. Wykonano po miary dozymetryczne (mocy dawki) promieniowania gamma oraz neutronowego wewnątrz i wokół hali eksperymentalnej dla prądów ekstrakcji cyklotronu do wartości 100 nA.Item Symetryzacja pola magnetycznego cyklotronu AIC-144(Institute of Nuclear Physics Polish Academy of Sciences, 2011) Daniel, Krzysztof; Cieślik, Robert; Grzybek, Ryszard; Guguła, Konrad; Janik, Grzegorz; Koczot, Andrzej; Molęda, Janusz; Norys, Tadeusz; Pyzioł, Wojciech; Ruszel, Marek; Sałach, Bogusław; Sroka, Artur; Sulikowski, Jacek; Tarczoń, RyszardThe cyclotron AIC-144, currently used in proton radiotherapy of eye melanoma, is located in the Institute of Nuclear Physics in Cracow. The efficiency of protons deflection of this cyclotron, after elements of pole tip were precisely installed therein in 2006, amounted to 10%. Several months later micromoves of pole tip elements and decline of effectiveness of proton beams deflection were observed. Attempts to restore previous state led to partial success. The efficiency of deflection was still much lower than the one obtained in 2006 and amounted to 3%. The aim of this paper is to verify the hypothesis about deterioration of magnetic field symmetry in the area of acceleration and to correct the field by introducing micromoves into pole tip elements, under control of magnetic field mapping. The survey has confirmed significant asymmetry in the magnetic field within the acceleration area. After precise correction of the position of pole tip elements essential symmetry improvement was achieved. The correction was successful and after activating the cyclotron the efficiency of deflection reached 12%.Item Upgrade of the equipment for production of gallium isotopes from proton - activated zinc targets(Institute of Nuclear Physics Polish Academy of Sciences, 2014) Ochab, Ewa; Petelenz, Barbara; Szałkowski, Mirosław; Ruszel, Marek; Sroka, Artur; Bogdali, PawełTwo gallium isotopes, 66Ga (T1/2=9.4h, β+ 4.2MeV) and 67Ga (T1/2=78h, EC), can serve as good models in development of new 68Ga-labelled (T1/2=68m, β+ 1.9MeV) PET radiopharmaceuticals. In order to produce 66Ga and/or 67Ga from zinc targets activated in a medical cyclotron, we designed a prototype target whose external dimensions match the geometry of other standard targets, but which contains modified internal parts. Besides, we equipped our old apparatus for solvent extraction of 67Ga in new, remotely controlled, electric valves. Performance of the upgraded chemical apparatus turned out good and the gas- and water-tightness of the new target at room temperature were satisfactory too. Performance of the new target in the transport lines of the PETtrace cyclotron as well as its behavior in harsh thermal conditions have to be the matter of future experiments.