T. Siiskonen scite author profile

The overall uncertainty associated with the use of XR-RV3 films to determine skin dose in the interventional environment can realistically be estimated to be around 20% (k = 1). This uncertainty can be reduced to within 5% if carefully monitoring scanner, film, and fitting-related errors or it can easily increase to over 40% if minimal care is not taken. This work demonstrates the importance of appropriate calibration, reading, fitting, and other film-related and scan-related processes, which will help improve the accuracy of skin dose measurements in interventional procedures.

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Renormalization of the weak hadronic current in the nuclear medium

Siiskonen

Hjorth‐Jensen

Suhonen

2001

Phys. Rev. C

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The renormalization of the weak charge-changing hadronic current as a function of the reaction energy release is studied at the nucleonic level. We have calculated the average quenching factors for each type of current (vector, axial vector and induced pseudoscalar). The obtained quenching in the axial vector part is, at zero momentum transfer, 19% for the sd shell and 23% in the f p shell. We have extended the calculations also to heavier systems such as 56 Ni and 100 Sn, where we obtain stronger quenchings, 44% and 59%, respectively. Gamow-Teller type transitions are discussed, along with the higher order matrix elements. The quenching factors are constant up to roughly 60 MeV momentum transfer. Therefore the use of energy-independent quenching factors in beta decay is justified. We also found that going beyond the zeroth and first order operators (in inverse nucleon mass) does not give any

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T. Siiskonen

Measurement of the IAS resonance strength in 23Mg

The β2p decay mechanism of Ar

Characterization of XR‐RV3 GafChromic^® films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors

Renormalization of the weak hadronic current in the nuclear medium

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About

T. Siiskonen

Measurement of the IAS resonance strength in 23Mg

The β2p decay mechanism of Ar

Characterization of XR‐RV3 GafChromic® films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors

Renormalization of the weak hadronic current in the nuclear medium

Contact Info

Product

Resources

About

Characterization of XR‐RV3 GafChromic^® films in standard laboratory and in clinical conditions and means to evaluate uncertainties and reduce errors