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1. Participant and spectator scaling of spectator fragments in Au+Au and Cu+Cu collisions at sqrt(sNN) = 19.6 and 22.4 GeV

Author

Alver, B., Back, B. B., Baker, M. D., Ballintijn, M., Barton, D. S., Betts, R. R., Bickley, A. A., Bindel, R., Budzanowski, A., Busza, W., Carroll, A., Chai, Z., Chetluru, V., Decowski, M. P., Garcia, E., Gburek, T., George, N., Gulbrandsen, K., Gushue, S., Halliwell, C., Hamblen, J., Harnarine, I., Heintzelman, G. A., Henderson, C., Hofman, D. J., Hollis, R. S., Holynski, R., Holzman, B., Iordanova, A., Johnson, E., Kane, J. L., Katzy, J., Khan, N., Kucewicz, W., Kulinich, P., Kuo, C. M., Li, W., Lin, W. T., Loizides, C., Manly, S., McLeod, D., Mignerey, A. C., Nouicer, R., Olszewski, A., Pak, R., Park, I. C., Pernegger, H., Reed, C., Remsberg, L. P., Reuter, M., Richardson, E., Roland, C., Roland, G., Rosenberg, L., Sagerer, J., Sarin, P., Sawicki, P., Sedykh, I., Skulski, W., Smith, C. E., Stankiewicz, M. A., Steinberg, P., Stephans, G. S. F., Sukhanov, A., Szostak, A., Tang, J. L., Tonjes, M. B., Trzupek, A., Vale, C., van Nieuwenhuizen, G. J., Vaurynovich, S. S., Verdier, R., Veres, G. I., Walters, P., Wenger, E., Willhelm, D., Wolfs, F. L. H., Wosiek, B., Wozniak, K., Wuosmaa, A. H., Wyngaardt, S., and Wyslouch, B.

Subjects
Nuclear Experiment
Abstract

Spectator fragments resulting from relativistic heavy ion collisions, consisting of single protons and neutrons along with groups of stable nuclear fragments up to Nitrogen (Z=7), are measured in PHOBOS. These fragments are observed in Au+Au (sqrt(sNN)=19.6 GeV) and Cu+Cu (22.4 GeV) collisions at high pseudorapidity ($\eta$). The dominant multiply-charged fragment is the tightly bound Helium ($\alpha$), with Lithium, Beryllium, and Boron all clearly seen as a function of collision centrality and pseudorapidity. We observe that in Cu+Cu collisions, it becomes much more favorable for the $\alpha$ fragments to be released than Lithium. The yields of fragments approximately scale with the number of spectator nucleons, independent of the colliding ion. The shapes of the pseudorapidity distributions of fragments indicate that the average deflection of the fragments away from the beam direction increases for more central collisions. A detailed comparison of the shapes for $\alpha$ and Lithium fragments indicates that the centrality dependence of the deflections favors a scaling with the number of participants in the collision., Comment: To be submitted to PRC 17 pages, 19 figures

Published
2015
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3. Scaling properties in bulk and p$_{\rm T}$-dependent particle production near midrapidity in relativistic heavy ion collisions

Author

PHOBOS Collaboration, Alver, B., Back, B. B., Baker, M. D., Ballintijn, M., Barton, D. S., Betts, R. R., Bindel, R., Busza, W., Chai, Z., Chetluru, V., Garcia, E., Gburek, T., Gulbrandsen, K., Hamblen, J., Harnarine, I., Henderson, C., Hofman, D. J., Hollis, R. S., Holynski, R., Holzman, B., Iordanova, A., Kane, J. L., Kulinich, P., Kuo, C. M., Li, W., Lin, W. T., Loizides, C., Manly, S., Mignerey, A. C., Nouicer, R., Olszewski, A., Pak, R., Reed, C., Richardson, E., Roland, C., Roland, G., Sagerer, J., Sedykh, I., Smith, C. E., Stankiewicz, M. A., Steinberg, P., Stephans, G. S. F., Sukhanov, A., Szostak, A., Tonjes, M. B., Trzupek, A., van Nieuwenhuizen, G. J., Vaurynovich, S. S., Verdier, R., Veres, G., Walters, P., Wenger, E., Willhelm, D., Wolfs, F. L. H., Wosiek, B., Wozniak, K., Wyngaardt, S., and Wyslouch, B.

Subjects
Nuclear Experiment
Abstract

The centrality dependence of the midrapidity charged-particle multiplicity density ($|\eta|$$<$1) is presented for Au+Au and Cu+Cu collisions at RHIC over a broad range of collision energies. The multiplicity measured in the Cu+Cu system is found to be similar to that measured in the Au+Au system, for an equivalent N$_{\rm part}$, with the observed factorization in energy and centrality still persistent in the smaller Cu+Cu system. The extent of the similarities observed for bulk particle production is tested by a comparative analysis of the inclusive transverse momentum distributions for Au+Au and Cu+Cu collisions near midrapidity. It is found that, within the uncertainties of the data, the ratio of yields between the various energies for both Au+Au and Cu+Cu systems are similar and constant with centrality, both in the bulk yields as well as a function of p$_{\rm T}$, up to at least 4 GeV/$c$. The effects of multiple nucleon collisions that strongly increase with centrality and energy appear to only play a minor role in bulk and intermediate transverse momentum particle production., Comment: Submitted for publication in Phys. Rev. C, 5 pages, 3 figures

Published
2008
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4. System size, energy, centrality and pseudorapidity dependence of charged-particle density in Au+Au and Cu+Cu collisions at RHIC

Author

PHOBOS Collaboration, Veres, G. I., Alver, B., Back, B. B., Baker, M. D., Ballintijn, M., Barton, D. S., Betts, R. R., Bickley, A. A., Bindel, R., Busza, W., Carroll, A., Chai, Z., Chetluru, V., Decowski, M. P., García, E., Gburek, T., George, N., Gulbrandsen, K., Halliwell, C., Hamblen, J., Harnarine, I., Hauer, M., Henderson, C., Hofman, D. J., Hollis, R. S., Hołyński, R., Holzman, B., Iordanova, A., Johnson, E., Kane, J. L., Khan, N., Kulinich, P., Kuo, C. M., Li, W., Lin, W. T., Loizides, C., Manly, S., Mignerey, A. C., Nouicer, R., Olszewski, A., Pak, R., Reed, C., Richardson, E., Roland, C., Roland, G., Sagerer, J., Seals, H., Sedykh, I., Smith, C. E., Stankiewicz, M. A., Steinberg, P., Stephans, G. S. F., Sukhanov, A., Szostak, A., Tonjes, M. B., Trzupek, A., Vale, C., van Nieuwenhuizen, G. J., Vaurynovich, S. S., Verdier, R., Walters, P., Wenger, E., Willhelm, D., Wolfs, F. L. H., Wosiek, B., Woźniak, K., Wyngaardt, S., and Wysłouch, B.

Subjects
Nuclear Experiment
Abstract

Charged particle pseudorapidity distributions are presented from the PHOBOS experiment at RHIC, measured in Au+Au and Cu+Cu collisions at sqrt{s_NN}=19.6, 22.4, 62.4, 130 and 200 GeV, as a function of collision centrality. The presentation includes the recently analyzed Cu+Cu data at 22.4 GeV. The measurements were made by the same detector setup over a broad range in pseudorapidity, |eta|<5.4, allowing for a reliable systematic study of particle production as a function of energy, centrality and system size. Comparing Cu+Cu and Au+Au results, we find that the total number of produced charged particles and the overall shape (height and width) of the pseudorapidity distributions are determined by the number of nucleon participants, N_part. Detailed comparisons reveal that the matching of the shape of the Cu+Cu and Au+Au pseudorapidity distributions over the full range of eta is better for the same N_part/2A value than for the same N_part value, where A denotes the mass number. In other words, it is the geometry of the nuclear overlap zone, rather than just the number of nucleon participants that drives the detailed shape of the pseudorapidity distribution and its centrality dependence., Comment: 5 pages, 4 figures. Presented at the 20th International Conference on Nucleus-Nucleus Collisions (Quark Matter 2008), Jaipur, Rajasthan, India, 4-10 February 2008

Published
2008
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5. Non-flow correlations and elliptic flow fluctuations in Au+Au collisions at sqrt(s_NN)=200GeV

Author

PHOBOS Collaboration, Alver, B., Back, B. B., Baker, M. D., Ballintijn, M., Barton, D. S., Betts, R. R., Bickley, A. A., Bindel, R., Busza, W., Carroll, A., Chai, Z., Chetluru, V., Decowski, M. P., Garcia, E., Gburek, T., George, N., Gulbrandsen, K., Halliwell, C., Hamblen, J., Harnarine, I., Hauer, M., Henderson, C., Hofman, D. J., Hollis, R. S., Holyinski, R., Holzman, B., Iordanova, A., Johnson, E., Kane, J. L., Khan, N., Kulinich, P., Kuo, C. M., Li, W., Lin, W. T., Loizides, C., Manly, S., Mignerey, A. C., Nouicer, R., Olszewski, A., Pak, R., Reed, C., Richardson, E., Roland, C., Roland, G., Sagerer, J., Seals, H., Sedykh, I., Smith, C. E., Stankiewicz, M. A., Steinberg, P., Stephans, G. S. F., Sukhanov, A., Szostak, A., Tonjes, M. B., Trzupek, A., Vale, C., van Nieuwenhuizen, G. J., Vaurynovich, S. S., Verdier, R., Veres, G. I., Walters, P., Wenger, E., Willhelm, D., Wolfs, F. L. H., Wosiek, B., Wozniak, K., Wyngaardt, S., and Wyslouch, B.

Subjects
Nuclear Experiment
Abstract

We present first results on event-by-event elliptic flow fluctuations in nucleus-nucleus collisions corrected for effects of non-flow correlations where the magnitude of non-flow correlations has been independently measured in data. Over the measured range in centrality, we see large relative fluctuations of 25-50%. The results are consistent with predictions from both color glass condensate and Glauber type initial condition calculations of the event-by-event participant eccentricity fluctuations., Comment: 4 pages, 3 figures, Quark Matter 2008 Proceedings

Published
2008
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6. System Size, Energy and Centrality Dependence of Pseudorapidity Distributions of Charged Particles in Relativistic Heavy Ion Collisions

Author

Alver, B., Back, B. B., Baker, M. D., Ballintijn, M., Barton, D. S., Betts, R. R., Bindel, R., Busza, W., Chai, Z., Chetluru, V., García, E., Gburek, T., Gulbrandsen, K., Hamblen, J., Harnarine, I., Henderson, C., Hofman, D. J., Hollis, R. S., Hołyński, R., Holzman, B., Iordanova, A., Kane, J. L., Kulinich, P., Kuo, C. M., Li, W., Lin, W. T., Loizides, C., Manly, S., Mignerey, A. C., Nouicer, R., Olszewski, A., Pak, R., Reed, C., Richardson, E., Roland, C., Roland, G., Sagerer, J., Sedykh, I., Smith, C. E., Stankiewicz, M. A., Steinberg, P., Stephans, G. S. F., Sukhanov, A., Szostak, A., Tonjes, M. B., Trzupek, A., van Nieuwenhuizen, G. J., Vaurynovich, S. S., Verdier, R., Veres, G. I., Walters, P., Wenger, E., Willhelm, D., Wolfs, F. L. H., Wosiek, B., Woźniak, K., Wyngaardt, S., and Wysłouch, B.

Subjects
Nuclear Experiment
Abstract

We present the first measurements of the pseudorapidity distribution of primary charged particles in Cu+Cu collisions as a function of collision centrality and energy, \sqrtsnn = 22.4, 62.4 and 200 GeV, over a wide range of pseudorapidity, using the PHOBOS detector. Making a global comparison of Cu+Cu and Au+Au results, we find that the total number of produced charged particles and the rough shape (height and width) of the pseudorapidity distributions are determined by the number of nucleon participants. More detailed studies reveal that a more precise matching of the shape of the Cu+Cu and Au+Au pseudorapidity distributions over the full range of pseudorapidity occurs for the same Npart/2A value rather than the same Npart value. In other words, it is the collision geometry rather than just the number of nucleon participants that drives the detailed shape of the pseudorapidity distribution and its centrality dependence at RHIC energies., Comment: Submitted to Physical Review Letters

Published
2007
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7. Identified hadron transverse momentum spectra in Au+Au collisions at sqrt(s_(NN))=62.4 GeV

Author

PHOBOS Collaboration, Back, B. B., Baker, M. D., Ballintijn, M., Barton, D. S., Betts, R. R., Bickley, A. A., Bindel, R., Busza, W., Carroll, A., Chai, Z., Decowski, M. P., Garcia, E., Gburek, T., George, N., Gulbrandsen, K., Halliwell, C., Hamblen, J., Hauer, M., Henderson, C., Hofman, D. J., Hollis, R. S., Holynski, R., Holzman, B., Iordanova, A., Johnson, E., Kane, J. L., Khan, N., Kulinich, P., Kuo, C. M., Lin, W. T., Manly, S., Mignerey, A. C., Nouicer, R., Olszewski, A., Pak, R., Reed, C., Roland, C., Roland, G., Sagerer, J., Seals, H., Sedykh, I., Smith, C. E., Stankiewicz, M. A., Steinberg, P., Stephans, G. S. F., Sukhanov, A., Tonjes, M. B., Trzupek, A., Vale, C., van Nieuwenhuizen, G. J., Vaurynovich, S. S., Verdier, R., Veres, G. I., Wenger, E., Wolfs, F. L. H., Wosiek, B., Wozniak, K., and Wyslouch, B.

Subjects
Nuclear Experiment
Abstract

Transverse momentum spectra of pions, kaons, protons and antiprotons from Au+Au collisions at sqrt(s_(NN)) = 62.4 GeV have been measured by the PHOBOS experiment at the Relativistic Heavy Ion Collider at Brookhaven National Laboratory. The identification of particles relies on three different methods: low momentum particles stopping in the first detector layers; the specific energy loss (dE/dx) in the silicon Spectrometer, and Time-of-Flight measurement. These methods cover the transverse momentum ranges 0.03-0.2, 0.2-1.0 and 0.5-3.0 GeV/c, respectively. Baryons are found to have substantially harder transverse momentum spectra than mesons. The pT region in which the proton to pion ratio reaches unity in central Au+Au collisions at sqrt(s_(NN)) = 62.4 GeV fits into a smooth trend as a function of collision energy. At low transverse momenta, the spectra exhibit a significant deviation from transverse mass scaling, and when the observed particle yields at very low pT are compared to extrapolations from higher pT, no significant excess is found. By comparing our results to Au+Au collisions at sqrt(s_(NN)) = 200 GeV, we conclude that the net proton yield at midrapidity is proportional to the number of participant nucleons in the collision., Comment: 15 pages, 12 figures. Submitted to Phys. Rev. C

Published
2006
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8. The Origin of the Difference between Multiplicities in e+e- Annihilation and Heavy Ion Collisions

Author

Cleymans, J., Stankiewicz, M., Steinberg, P., and Wheaton, S.

Subjects
Nuclear Theory, High Energy Physics - Phenomenology, Nuclear Experiment
Abstract

Multiplicities in e+e- annihilation and relativistic heavy ion collisions show remarkable similarities at high energies. A thermal-statistical model is proposed to explain the differences which occur mainly at low beam energies. Two different calculations are performed, one using an approximate thermodynamic relationship, the other using a full thermal model code. The results are in qualitative agreement, suggesting that the interplay of baryon density and temperature tends to systematically suppress the total multiplicity at lower beam energies., Comment: 12 Pages, 4 Figures, Submitted to Physics Letters B

Published
2005

15. OC-0443 3D-Image-guided brachytherapy plus irradiation in stage-I-III inoperable endometrial cancer.

Author

Rovirosa, A., primary, Zhang, Y., additional, Chargari, C., additional, Van der Steen-Banasik, E., additional, Wojcieszek, P., additional, Stankiewicz, M., additional, Najjari, D., additional, Hoskin, P., additional, Han, K., additional, Segedin, B., additional, Potter, R., additional, Tanderup, K., additional, and Van Limbergen, E., additional

Published
2022
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21. 3D Image-Guided Brachytherapy as Only Treatment for Stage-I Inoperable Endometrial Cancer: Retrospective Analysis of the Gynecological Cancer GEC-ESTRO Working Group

Author

Rovirosa, A., primary, Zhang, Y., additional, Chargari, C., additional, Cooper, R., additional, Wojcieszek, P., additional, Stankiewicz, M., additional, Hoskin, P., additional, van der Steen-Banas, E., additional, Segedin, B., additional, Najjari, D., additional, Potter, R., additional, Tanderup, K., additional, and van Limbergen, E., additional

Published
2021
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28. Chapter 11: Changes in liquid and atmospheric inputs to the marine environment from land (including through groundwater), ships and offshore installations

Author

Ebinghaus, R., Grøsvik, B., Hassellöv, I., Moffat, C., Simcock, A., Sonesten, L., Vlahos, P., Achterberg, E., Alo, B., Andrade, C., Bebianno, M., Caetano, M., Gnandi, K., Hong, G., Kim, S., Lohmann, R., Stankiewicz, M., and Wang, J.

Abstract

Chemical production has continued to in-crease and change since 2003. The potential geographic impact of the chemical industry continued to change from the Atlantic Ocean to the Pacific Ocean, where almost 70 per cent of the industry is expected to operate by 2030, while new products are continually being devel-oped, thus adding to the mixture of chemicals to which biota in the ocean is being exposed.Different lists of hazardous substances have been identified by international organizations, although there is still no agreed single global list of substances that are of concern. The present chapter contains an assessment of the changes since the first Assessment in wa-ter and airborne inputs to the marine environ-ment from land (including groundwater), ships and offshore installations. In addition, the information in the present chapter builds upon the assessment of the list of hazardous sub-stances used in the first Assessment, namely, POPs, metals, hydrocarbons and radioactive substances. It includes new information on rare earth elements, PPCPs and airborne in-puts of nitrogen oxides and sulfur oxides that were not included in the first Assessment.

Published
2021

29. Properties of the matter created in heavy ion collisions – results from the PHOBOS experiment

Author

WOZNIAK, Krzysztof, Alver, B., Back, B. B, Baker, M. D., Ballintijn, M., Barton, D. S., Betts, R. R, Bickley, A. A, Bindel, R., Busza, W., Carroll, A., Chai, Z., Chetluru, V., Decowski, M. P., Garcia, E., Gburek, T., George, N., Gulbrandsen, K., Halliwell, C., Hamblen, J., Harnarine, I., Hauer, M., Henderson, C., Hofman, Dave J., Hollis, R. S., Holynski, R., Holzman, B., Iordanova, A., Johnson, E., Kane, J. L., Khan, N., Kulinich, P., Kuo, Chih-Yu, Li, Wei, Lin, W. T., Loizides, Constantinos, Manly, S., Mignerey, A. C., Nouicer, Rachid, Olszewski, Andrzej, Pak, R., Reed, C., Richardson, E., Roland, C., Roland, G., Sagerer, J., Seals, H., Sedykh, I., Smith, C. E., Stankiewicz, M. A., Steinberg, Peter Alan, Stephans, George S.F., Sukhanov, A., Szostak, A., Tonjes, M. B., Trzupek, Adam, Vale, C., van Nieuwenhuizen, Gerrit J., Vaurynovich, S. S, Verdier, R., Veres, G. I., Walters, P., Wenger, E., Willhelm, D., Wolfs, F. L.H., Wosiek, Barbara, Wyngaardt, S., Wyslouch, B., WOZNIAK, Krzysztof, Alver, B., Back, B. B, Baker, M. D., Ballintijn, M., Barton, D. S., Betts, R. R, Bickley, A. A, Bindel, R., Busza, W., Carroll, A., Chai, Z., Chetluru, V., Decowski, M. P., Garcia, E., Gburek, T., George, N., Gulbrandsen, K., Halliwell, C., Hamblen, J., Harnarine, I., Hauer, M., Henderson, C., Hofman, Dave J., Hollis, R. S., Holynski, R., Holzman, B., Iordanova, A., Johnson, E., Kane, J. L., Khan, N., Kulinich, P., Kuo, Chih-Yu, Li, Wei, Lin, W. T., Loizides, Constantinos, Manly, S., Mignerey, A. C., Nouicer, Rachid, Olszewski, Andrzej, Pak, R., Reed, C., Richardson, E., Roland, C., Roland, G., Sagerer, J., Seals, H., Sedykh, I., Smith, C. E., Stankiewicz, M. A., Steinberg, Peter Alan, Stephans, George S.F., Sukhanov, A., Szostak, A., Tonjes, M. B., Trzupek, Adam, Vale, C., van Nieuwenhuizen, Gerrit J., Vaurynovich, S. S, Verdier, R., Veres, G. I., Walters, P., Wenger, E., Willhelm, D., Wolfs, F. L.H., Wosiek, Barbara, Wyngaardt, S., and Wyslouch, B.

Abstract

In the collisions of ultrarelativistic heavy ions the energy of the nuclei is released in a small volume leading to the creation of a hot and dense nuclear matter. The study of the particles produced from it gives the information on the conditions in the early stage of the collision and the evolution of the system. The PHOBOS experiment provides unique data on the particle production in the almost full phase space and down to very small transverse momenta. This overview shortly presents the most important features of the nucleus-nucleus collisions observed by the PHOBOS experiment, but concentrates on the most recent studies. The extensive analyses of charged particles production are based on the multiplicity measurements in a very wide pseudorapidity range and reveal strong short and long range correlations. The correlations with a high p T trigger particle extends at least 4 units in pseudorapidity, while two-particle correlations suggest production of particles in large and wide clusters. © Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike Licence.

Published
2021

33. Recent results from PHOBOS on particle production at high p T

Author

Alver, B., Back, B. B., Baker, M. D., Ballintijn, M., Barton, D. S., Betts, R. R., Bickley, A. A., Bindel, R., Busza, W., Carroll, A., Chai, Z., Chetluru, V., Decowski, M. P., García, E., Gburek, T., George, N., Gulbrandsen, K., Halliwell, C., Hamblen, J., Harnarine, I., Hauer, M., Henderson, C., Hofman, D. J., Hollis, R. S., Holyński, R., Holzman, B., Iordanova, A., Johnson, E., Kane, J. L., Khan, N., Kulinich, P., Kuo, C. M., Li, W., Lin, W. T., Loizides, C., Manly, S., Mignerey, A. C., Nouicer, R., Olszewski, A., Pak, R., Reed, C., Richardson, E., Roland, C., Roland, G., Sagerer, J., Seals, H., Sedykh, I., Smith, C. E., Stankiewicz, M. A., Steinberg, P., Stephans, G. S. F., Sukhanov, A., Szostak, A., Tonjes, M. B., Trzupek, A., Vale, C., van Nieuwenhuizen, G. J., Vaurynovich, S. S., Verdier, R., Veres, G. I., Walters, P., Wenger, E., Willhelm, D., Wolfs, F. L. H., Wosiek, B., Woźniak, K., Wyngaardt, S., Wysłouch, B., and PHOBOS Collaboration

Published
2009
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37. Particle production in nuclear collisions over a broad centrality range from the PHOBOS experiment

Author

Alver, B., Back, B. B., Baker, M. D., Ballintijn, M., Barton, D. S., Betts, R. R., Bickley, A. A., Bindel, R., Budzanowski, A., Busza, W., Carroll, A., Chai, Z., Chetluru, V., Decowski, M. P., García, E., Gburek, T., George, N., Gulbrandsen, K., Gushue, S., Halliwell, C., Hamblen, J., Heintzelman, G. A., Henderson, C., Harnarine, I., Hofman, D. J., Hollis, R. S., Ho⌈yński, R., Holzman, B., Iordanova, A., Johnson, E., Kane, J. L., Khan, N., Kucewicz, W., Kulinich, P., Kuo, C. M., Li, W., Lin, W.T., Loizides, C., Manly, S., Mignerey, A. C., Nouicer, R., Olszewski, A., Pak, R., Park, I. C., Reed, C., Remsberg, L. P., Reuter, M., Richardson, E., Roland, C., Roland, G., Rosenberg, L., Sagerer, J., Sarin, P., Sawicki, P., Sedykh, I., Skulski, W., Smith, C. E., Stankiewicz, M. A., Steinberg, P., Stephans, G. S. F., Sukhanov, A., Szostak, A., Tang, J.-L., Tonjes, M.B., Trzupek, A., Vale, C., van Nieuwenhuizen, G. J., Vaurynovich, S. S., Verdier, R., Veres, G. I., Walters, P., Wenger, E., Willhelm, D., Wolfs, F. L. H., Wosiek, B., Woźniak, K., Wuosmaa, A. H., Wyngaardt, S., and Wysłouch, B.

Published
2006
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39. Pressure ulcer healing with an intensive nutrition intervention in an acute setting: A pilot randomised controlled trial

Author

Banks, M. D., Ross, L. J., Webster, J., Mudge, A., Stankiewicz, M., Dwyer, K., Coleman, K., Campbell, J., Banks, M. D., Ross, L. J., Webster, J., Mudge, A., Stankiewicz, M., Dwyer, K., Coleman, K., and Campbell, J.

Abstract

Objective: To investigate the feasibility of recruitment, retention, intervention delivery and outcome measurement in a nutritional intervention to promote pressure ulcer healing in an acute setting. Method: Some 50 tertiary hospital patients with stage II or greater pressure ulcer were randomised to receive either individualised nutritional care by a dietitian, including prescription of wound healing supplements; or standard nutritional care. Relevant nutritional and pressure ulcer (PU) parameters were collected at day 5, 10, 15, 22 and then weekly or until discharge. Results: The median length of hospital stay was 14 days (1-70) with 29 patients discharged by day 15. There were 24 patients discharged before their PU fully healed. Per cent change in valid PU area and score measures from baseline to day 15 were chosen for outcome data analysis to account for varying initial size and severity of the wound and length of stay. There was a larger percentage reduction in PU measures in the intervention group, but this was not statistically significant. Little difference was found in nutritional intake between the control and intervention groups indicating a requirement to focus on effective delivery of the intervention in future studies. Future studies in the acute setting need to account for length of stay and ideally follow patients until full healing. Conclusion: Results indicate a positive association with nutrition intervention and PU healing and that a rigorously designed and adequately powered study is feasible. Declaration of interest: This research was supported by a grant from the Queensland Health, Health Practitioner Research Scheme.

Published
2020

45. Concurrent ChemoRadiation (CCR) is better than Accelerated Radiation Alone (ARA) in Patients with Moderate Advanced Head and Neck Squamous Cell Carcinoma (MAHNSCC). Mature results of HN08 Polish Trial

Author

Księżniak-Baran, D., primary, Stankiewicz, M., additional, Wygoda, A., additional, Rutkowski, T., additional, Pilecki, B., additional, Polanowski, P., additional, Dworzecka, U., additional, Kentnowski, M., additional, Bieleń, A., additional, Brewczyński, A., additional, Dębiec, K., additional, Leś, D., additional, and Skladowski, K., additional

Published
2020
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49. β and γ bands in N = 88, 90, and 92 isotones investigated with a five-dimensional collective Hamiltonian based on covariant density functional theory : Vibrations, shape coexistence, and superdeformation

Author

Majola, S. N. T., Shi, Z., Song, B. Y., Li, Z. P., Zhang, S. Q., Bark, R. A., Sharpey-Schafer, J. F., Aschman, D. G., Bvumbi, S. P., Bucher, T. D., Cullen, D. M., Dinoko, T. S., Easton, J. E., Erasmus, N., Greenlees, P. T., Hartley, D. J., Hirvonen, J., Korichi, A., Jakobsson, U., Jones, P., Jongile, S., Julin, R., Juutinen, S., Ketelhut, S., Kheswa, B. V., Khumalo, N. A., Lawrie, E. A., Lawrie, J. J., Lindsay, R., Madiba, T. E., Makhathini, L., Maliage, S. M., Maqabuka, B., Malatji, K. L., Masiteng, P. L., Mashita, P. I., Mdletshe, L., Minkova, A., Msebi, L., Mullins, S. M., Ndayishimye, J., Negi, D., Netshiya, A., Newman, R., Ntshangase, S. S., Ntshodu, R., Nyakó, B. M., Papka, P., Peura, P., Rahkila, P., Riedinger, L. L., Riley, M. A., Roux, D. G., Ruotsalainen, P., Saren, J. J., Scholey, C., Shirinda, O., Sithole, M. A., Sorri, J., Stankiewicz, M., Stolze, S., Timár, J., Uusitalo, J., Vymers, P. A., Wiedeking, M., and Zimba, G. L.

Subjects
electromagnetic transitions, nuclear density functional theory, nuclear spin and parity, nucleon induced nuclear reactions, collective levels, collective models, low and intermediate energy heavy-ion reactions, ydinfysiikka
Abstract

A comprehensive systematic study is made for the collective β and γ bands in even-even isotopes with neutron numbers N=88 to 92 and proton numbers Z=62(Sm) to 70 (Yb). Data, including excitation energies, B(E0) and B(E2) values, and branching ratios from previously published experiments are collated with new data presented for the first time in this study. The experimental data are compared to calculations using a five-dimensional collective Hamiltonian (5DCH) based on the covariant density functional theory (CDFT). A realistic potential in the quadrupole shape parameters V(β,γ) is determined from potential energy surfaces (PES) calculated using the CDFT. The parameters of the 5DCH are fixed and contained within the CDFT. Overall, a satisfactory agreement is found between the data and the calculations. In line with the energy staggering S(I) of the levels in the 2γ+ bands, the potential energy surfaces of the CDFT calculations indicate γ-soft shapes in the N=88 nuclides, which become γ rigid for N=90 and N=92. The nature of the 02+ bands changes with atomic number. In the isotopes of Sm to Dy, they can be understood as β vibrations, but in the Er and Yb isotopes the 02+ bands have wave functions with large components in a triaxial superdeformed minimum. In the vicinity of 152Sm, the present calculations predict a soft potential in the β direction but do not find two coexisting minima. This is reminiscent of 152Sm exhibiting an X(5) behavior. The model also predicts that the 03+ bands are of two-phonon nature, having an energy twice that of the 02+ band. This is in contradiction with the data and implies that other excitation modes must be invoked to explain their origin. peerReviewed

Published
2019

50. $\beta$ and $\gamma$ bands in $N=88$, 90, and 92 isotones investigated with a five-dimensional collective Hamiltonian based on covariant density functional theory: Vibrations, shape coexistence, and superdeformation

Author

Majola, S.N.T., Shi, Z., Song, B.Y., Li, Z.P., Zhang, S.Q., Bark, R.A., Sharpey-Schafer, J.F., Aschman, D.G., Bvumbi, S.P., Bucher, T.D., Cullen, D.M., Dinoko, T.S., Easton, J.E., Erasmus, N., Greenlees, P.T., Hartley, D.J., Hirvonen, J., Korichi, A., Jakobsson, U., Jones, P., Jongile, S., Julin, R., Juutinen, S., Ketelhut, S., Kheswa, B.V., Khumalo, N.A., Lawrie, E.A., Lawrie, J.J., Lindsay, R., Madiba, T.E., Makhathini, L., Maliage, S.M., Maqabuka, B., Malatji, K.L., Masiteng, P.L., Mashita, P.I., Mdletshe, L., Minkova, A., Msebi, L., Mullins, S.M., Ndayishimye, J., Negi, D., Netshiya, A., Newman, R., Ntshangase, S.S., Ntshodu, R., Nyakó, B.M., Papka, P., Peura, P., Rahkila, P., Riedinger, L.L., Riley, M.A., Roux, D.G., Ruotsalainen, P., Saren, J.J., Scholey, C., Shirinda, O., Sithole, M.A., Sorri, J., Stankiewicz, M., Stolze, S., Timár, J., Uusitalo, J., Vymers, P.A., Wiedeking, M., Zimba, G.L., Centre de Sciences Nucléaires et de Sciences de la Matière (CSNSM), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11)

Subjects
[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Nuclear Structure
Abstract

International audience; A comprehensive systematic study is made for the collective β and γ bands in even-even isotopes with neutron numbers N=88 to 92 and proton numbers Z=62(Sm) to 70 (Yb). Data, including excitation energies, B(E0) and B(E2) values, and branching ratios from previously published experiments are collated with new data presented for the first time in this study. The experimental data are compared to calculations using a five-dimensional collective Hamiltonian (5DCH) based on the covariant density functional theory (CDFT). A realistic potential in the quadrupole shape parameters V(β,γ) is determined from potential energy surfaces (PES) calculated using the CDFT. The parameters of the 5DCH are fixed and contained within the CDFT. Overall, a satisfactory agreement is found between the data and the calculations. In line with the energy staggering S(I) of the levels in the 2γ+ bands, the potential energy surfaces of the CDFT calculations indicate γ-soft shapes in the N=88 nuclides, which become γ rigid for N=90 and N=92. The nature of the 02+ bands changes with atomic number. In the isotopes of Sm to Dy, they can be understood as β vibrations, but in the Er and Yb isotopes the 02+ bands have wave functions with large components in a triaxial superdeformed minimum. In the vicinity of Sm152, the present calculations predict a soft potential in the β direction but do not find two coexisting minima. This is reminiscent of Sm152 exhibiting an X(5) behavior. The model also predicts that the 03+ bands are of two-phonon nature, having an energy twice that of the 02+ band. This is in contradiction with the data and implies that other excitation modes must be invoked to explain their origin.

Published
2019

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