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Featured researches published by N. Porile.


Physics Letters B | 1982

Critical phenomena in hadronic matter and experimental isotopic yields in high energy proton-nucleus collisions

R.W. Minich; S. Agarwal; A. Bujak; J. Chuang; J.E. Finn; L. Gutay; A. Hirsch; N. Porile; R. P. Scharenberg; B. Stringfellow; F. Turkot

Abstract We present our experimental data for relative isotopic yields of nuclear fragments in high energy proton-nucleus collisions. When nuclear fragmentation is assumed to be droplet formation in a system near the critical point, the relative isotopic yields of 60 nuclear fragments in the mass range 12⩽Af⩽31 can be described by a simple thermodynamic model.


Physical Review Letters | 1999

Elliptic flow: Transition from out-of-plane to in-plane emission in Au + Au collisions

C. Pinkenburg; N. N. Ajitanand; J. Alexander; M. Anderson; D. Best; F.P. Brady; T. Case; W. Caskey; D. Cebra; J. L. Chance; P. Chung; Brian J. Cole; K. Crowe; A. C. Das; J. E. Draper; A. Elmaani; M. L. Gilkes; S. Gushue; M. Heffner; A. Hirsch; E. Hjort; L. Huo; M. Justice; Morton Kaplan; D. Keane; J. Kintner; J. Klay; D. Krofcheck; R. Lacey; J. Lauret

We have measured the proton elliptic flow excitation function for the Au + Au system spanning the beam energy range 2 -- 8 AGeV. The excitation function shows a transition from negative to positive elliptic flow at a beam energy,


Physical Review C | 2003

Charged pion production in 2A to 8A GeV central Au plus Au collisions

J. Klay; N. N. Ajitanand; J. Alexander; M. G. Anderson; D. Best; F.P. Brady; T. Case; W. Caskey; D. Cebra; J. L. Chance; P. Chung; Brian J. Cole; K. Crowe; A. C. Das; J. E. Draper; M. L. Gilkes; S. Gushue; M. Heffner; A. Hirsch; E. Hjort; L. Huo; M. Justice; M. Kaplan; D. Keane; J. C. Kintner; D. Krofcheck; R. Lacey; J. Lauret; C. Law; M. A. Lisa

E_{tr} \sim


Physical Review Letters | 2002

Longitudinal flow of protons from (2-8)A GeV central Au+Au collisions.

J. Klay; N. N. Ajitanand; J. Alexander; M. G. Anderson; D. Best; F.P. Brady; T. Case; W. Caskey; D. Cebra; J. L. Chance; P. Chung; Brian J. Cole; K. Crowe; A. C. Das; J. E. Draper; M. L. Gilkes; S. Gushue; M. Heffner; A. Hirsch; E. Hjort; L. Huo; M. Justice; M. Kaplan; D. Keane; J. C. Kintner; D. Krofcheck; R. Lacey; J. Lauret; C. Law; M. A. Lisa

4 AGeV. Detailed comparisons with calculations from a relativistic Boltzmann-equation are presented. The comparisons suggest a softening of the nuclear equation of state (EOS) from a stiff form (K \sim 380 MeV) at low beam energies (E_{Beam} \le 2 AGeV) to a softer form (K \sim 210 MeV) at higher energies (E_{Beam} \ge


Physics Letters B | 1998

The role of double parton collisions in soft hadron interactions

T. Alexopoulos; E. W. Anderson; N. Biswas; A. Bujak; D.D. Carmony; A. R. Erwin; L. Gutay; A. Hirsch; C. Hojvat; V.P. Kenney; C.S. Lindsey; J. M. LoSecco; Sergei G. Matinyan; N. Morgan; S. H. Oh; N. Porile; R. P. Scharenberg; B. Stringfellow; M. Thompson; F. Turkot; W.D. Walker; C.H. Wang

4 AGeV) where the calculated baryon density


Physical Review Letters | 2000

Sideward flow in Au+Au collisions between 2A and 8A GeV

H. Liu; B. Srivastava; F.P. Brady; M. Justice; D. Cebra; S. Panitkin; E. Hjort; Z. Milosevich; Brian J. Cole; G. Rai; A. C. Das; J. Klay; J. L. Romero; R. P. Scharenberg; L. Huo; J. L. Chance; M. L. Gilkes; K. Crowe; M. Heffner; N.T.B. Stone; S. Wang; J. Whitfield; T. J. M. Symons; Y.M. Liu; S. Gushue; D. Best; J. E. Draper; A. Hirsch; M. Kaplan; W. Caskey

\rho \sim 4 \rho_0


Physical Review C | 2000

Statistical signatures of critical behavior in small systems

J. B. Elliott; S. Albergo; F. Bieser; F.P. Brady; Z. Caccia; D. Cebra; A. D. Chacon; J. L. Chance; Y. Choi; S. Costa; M. L. Gilkes; J. A. Hauger; A. Hirsch; E. Hjort; A. Insolia; M. Justice; D. Keane; J. C. Kintner; V. Lindenstruth; Michael Annan Lisa; H. S. Matis; M. A. McMahan; C. McParland; W. F. J. Müller; D. Olson; M. D. Partlan; N. Porile; R. Potenza; G. Rai; J. O. Rasmussen

.


Nuclear Physics | 1969

Reactions of 116Cd with intermediate energy 3He and 4He ions

D.M. Montgometry; N. Porile

Brookhaven-AGS. Measuerment of the spectra of charged pions over nearly full rapidity coverage from target to beam rapidity in the centrality range 0-5pct in AU-AU collisions at beam energies from 2 to 8 A GeV/nucleon. The rapidity densities are extracted using a thermal paramatrization model to fit the transverse mass spectra.. Numerical values supplied by J Klay.. This part (1) covers the data at 2 GeV/nucleon. Brookhaven-AGS. Measuerment of the spectra of charged pions over nearly full rapidity coverage from target to beam rapidity in the centrality range 0-5pct in AU-AU collisions at beam energies from 2 to 8 A GeV/nucleon. The rapidity densities are extracted using a thermal paramatrization model to fit the transverse mass spectra.. Numerical values supplied by J Klay.. This part (2) covers the data at 4 GeV/nucleon. Brookhaven-AGS. Measuerment of the spectra of charged pions over nearly full rapidity coverage from target to beam rapidity in the centrality range 0-5pct in AU-AU collisions at beam energies from 2 to 8 A GeV/nucleon. The rapidity densities are extracted using a thermal paramatrization model to fit the transverse mass spectra.. Numerical values supplied by J Klay.. This part (3) covers the data at 6.0 GeV/nucleon. Brookhaven-AGS. Measuerment of the spectra of charged pions over nearly full rapidity coverage from target to beam rapidity in the centrality range 0-5pct in AU-AU collisions at beam energies from 2 to 8 A GeV/nucleon. The rapidity densities are extracted using a thermal paramatrization model to fit the transverse mass spectra.. Numerical values supplied by J Klay.. This part (4) covers the data at 8.0 GeV/nucleon. Brookhaven-AGS. Measurement of the spectra of charged pions over nearly full rapidity coverage from target to beam rapidity in the centrality range 0-5pct in AU-AU collisions at beam energies from 2 to 8 A GeV/nucleon. The rapidity densities are extracted using a thermal paramatrization model to fit the transverse mass spectra.. Numerical values supplied by J Klay.. This part (5) covers the data Rapidiy density data.


Physical Review C | 2003

Constructing the phase diagram of finite neutral nuclear matter

J. B. Elliott; L. G. Moretto; L. Phair; G. J. Wozniak; S. Albergo; F. Bieser; F.P. Brady; Z. Caccia; D. Cebra; A. D. Chacon; J. L. Chance; Y. Choi; S. Costa; M. L. Gilkes; J. A. Hauger; A. Hirsch; E. Hjort; A. Insolia; M. Justice; D. Keane; J. C. Kintner; V. Lindenstruth; Michael Annan Lisa; H. S. Matis; M. A. McMahan; C. McParland; W. F. J. Müller; D. Olson; M. D. Partlan; N. Porile

Rapidity distributions of protons from central


Physics Letters B | 1995

Charged particle multiplicity correlations in pp̄ collisions at s=0.3−1.8 TeV

T. Alexopoulos; C. Allen; E. W. Anderson; V. Balamurali; S. Banerjee; P.D. Beery; P. C. Bhat; J.M. Bishop; N. Biswas; A. Bujak; D.D. Carmony; T. Carter; Y. Choi; P. L. Cole; R. DeBonte; V. DeCarlo; A. R. Erwin; C. Findeisen; A. T. Goshaw; L. Gutay; A. Hirsch; C. Hojvat; J. Jennings; V.P. Kenny; C.S. Lindsey; C. Loomis; J. M. LoSecco; T. McMahon; A.P. McManus; N. Morgan

^{197}

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D. Cebra

University of California

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F.P. Brady

University of California

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J. L. Chance

University of California

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D. Keane

Kent State University

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J. C. Kintner

University of California

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