The Svedberg Laboratory

The Svedberg Laboratory in october 2016

The The Svedberg Laboratory[1] (TSL) is a university facility, based in Uppsala, Sweden.

The activities at TSL are based around the particle accelerator Gustaf Werner cyclotron.

The main activity is proton therapy for the treatment of cancer, based on an agreement between the Oncology clinic at Uppsala University Hospital and Uppsala University.

Beamtime not used for proton therapy is devoted to commercial neutron and proton irradiation projects, mainly for Radiation testing.

There is also some time for basic (academic) research and in this case the experiments should be associated to Uppsala University or to EC projects.

TSL is supported by the European Community and belong to the EC projects ERINDA,[2] SkyFlash[3] and CHANDA.[4]

History

The Svedberg (1884-1971),(Theodor), professor in physical chemistry at Uppsala University from 1912 to 1949, was awarded the Nobel Prize in chemistry in 1926[5] for his research on dispersed systems (colloidal solutions). He invented the Ultracentrifuge, which was used in the discovery that proteins consist of macromolecules.

Towards the end of the 1930s The Svedberg and his colleagues built their first accelerator, a Neutron generator. In 1945, a donation from the Gustaf Werner Corporation gave the opportunity to build a much larger accelerator, a synchrocyclotron. The Gustaf Werner Institute with the synchrocyclotron as the main research instrument was founded in 1949 and continued to act as a base for research in high-energy physics and radiation biology until 1986 when The Svedberg Laboratory was established.

Intensive discussions concerning the type and size of accelerators Swedish research in nuclear and high-energy physics should have at its disposal took place in the early 1980s, One result of this process was that a decision was taken to bring the magnets of the so-called ICE-ring (Initial Cooling Experiment) from CERN to Uppsala. The accelerator ring was rebuilt as a cooler and storage ring and given the acronym CELSIUS (Cooling with ELectrons and Storing of Ions from the Uppsala Synchrocyclotron).

From 1994 until 2004 The Svedberg Laboratory was a national research facility funded to a large fraction from the Swedish Natural Science Research Council (Swedish Research Council). It was open for research groups from universities and institutes in Sweden and abroad. The laboratory had a nationally recruited board and an international program advisory committee, which gave recommendations concerning the research program by examining proposals from the user groups. Uppsala University was acting as the host of the Laboratory.

The TSL was in 2004 converted from a national laboratory into a university facility and new instructions for the laboratory came into operation July 1, 2004. The main activity of TSL is based on an agreement between Uppsala University Hospital and Uppsala University about continued Proton therapy. The beamtime not used for proton therapy is devoted to commercial neutron and proton irradiation projects. There is still some time for basic (academic) research and in this case the experiments should be associated to Uppsala University or to EU projects.

Proton therapy at TSL

The proton beam extracted from the cyclotron may have exclusive advantages in treatment of certain human malignant tumours and some other disorders where conventional Radiation therapy or surgery is not feasible. The depth dose distribution, with the Bragg peak, and the relatively sharp penumbra, enables the concentration of radiation to the target volume and minimizes the dose to normal tissue surrounding the target. Proton beam irradiation may lead to cure or shrinkage of tumour burden in cases where other treatment modalities fail. All patients are carefully investigated by computerized tomography and/or magnetic resonance imaging in order to obtain a detailed knowledge of the position and size of the tumour. Angiography and Positron emission tomography will be used in certain cases. Before the treatments, careful Radiation treatment planning is performed to ensure an optimal dose distribution. Treatments:

In June 2015 the Uppsala University Hospital will finish their treatments at TSL and move over to Skandion,[7] a new dedicated clinic for Proton therapy in Uppsala, Sweden.

The Irradiation facilities for Radiation testing

At TSL there are facilities with high-energy particle beams for different purposes. The users mostly use them for testing reliability of electronic equipment under radiation exposure, accelerated radiation testing. Other use has also been seen, such as biomedical research, material science and production of filters and other things.

The following facilities are available:

ANITA, the white spectrum neutron beam facility

Simulates the Cosmic ray induced neutron field. Designed for Single Event Effects/Soft Error Rate testing.

QMN, the quasi-monoenergetic neutron beam facility

Makes it possible to study the energy dependence of neutron-induced effects in electronics.

PAULA, the proton beam facility

For Single Event Effects & Total Ionisation Dose testing

Heavy Ions facility

During the years the cyclotron have delivered heavy ions for research and industrial projects. The cyclotron then used an external ion source, an ECRIS, for preacceleration of heavy ions.

Technical overview

The particle accelerator

The Gustaf Werner Cyclotron at The Svedberg Laboratory, Uppsala University, Uppsala, Sweden.

Machine Name: Gustaf Werner Cyclotron

History The machine was designed in house and constructed during 1946-51 with first beam in 1951. The machine was then rebuilt 1977–86 with first beam in 1986.

Characteristic Beams out of the machine : ions / energy(MeV/N) /current(pps)

Secondary beam facility: neutrons via 7Li(p,n) reaction

Transmission Efficiency (source to extracted beam)

Technical data (a)Magnet (nr 1 in picture)

Trim Coils

Harmonic Coils

Main Coils

Power

(b)RF (nr 3 in picture) Acceleration

Voltage

(c)Injection

(d)Extraction Elements, Characteristic

El. stat. defl. 65 kV, aperture 5 mm, septum 0.5 mm, El. magn. channel 4.7 kA, 5 mm septum passive focusing channel

passive peeler, regenerator Typical Efficiency (%): 50 Best Efficiency (%): 80

(e)Vacuum (nr 4 in picture) Pumps:

Achieved Vacuum: 10-5 Pa (10-7 mbar)

The beamlines

There are several beamlines at TSL: The A-line was used for nuclide production, has not been used for several years but is in running condition. The B-line is in commonly use for delivering proton beam for irradiation testing. The C-line is used for biomedical research with different heavy ions. The D-line is commonly used for delivering proton beam for production of neutron beams for irradiation testing. The G-line is commonly used for delivering proton beam for Proton therapy.

Laboratory directors

Notes and references

  1. The Svedberg Laboratory main page. Retrieved Feb 2015
  2. ERINDA Retrieved Feb 2015
  3. SkyFLASH Retrieved Feb 2015
  4. CHANDA Retrieved Feb 2015
  5. Nobel prize. Retrieved Feb 2015
  6. The Swedish Childhood Cancer Foundation Retrieved Feb 2015
  7. SKANDION Retrieved Feb 2015

Coordinates: 59°51′13″N 17°37′31″E / 59.8537°N 17.6254°E / 59.8537; 17.6254

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