M. L. Gilkes | Researchain

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Featured researches published by M. L. Gilkes.

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

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 Letters | 2002

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

Rapidity distributions of protons from central

Physical Review Letters | 1995

Radial flow in Au + Au collisions at E = (0.25-1.15)A GeV

Michael Annan Lisa; S. Albergo; F. Bieser; F.P. Brady; Z. Caccia; D. Cebra; A. D. Chacon; J. L. Chance; Y. Choi; Salvatore Costa; J. B. Elliott; M. L. Gilkes; J. A. Hauger; A. Hirsch; E. L. Hjort; A. Insolia; M. Justice; D. Keane; J. C. Kintner; H. S. Matis; M. A. McMahan; C. McParland; D. L. Olson; M. D. Partlan; Norbert T. Porile; R. Potenza; G. Rai; J. Rasmussen; Hans Georg Ritter; J. Romanski

^{197}

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

Au +

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

^{197}

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

Au collisions measured by the E895 Collaboration in the energy range from 2 to 8 AGeV at the Brookhaven AGS are presented. Longitudinal flow parameters derived using a thermal model including collective longitudinal expansion are extracted from these distributions. The results show an approximately linear increase in the longitudinal flow velocity,

Physical Review Letters | 2003

Near-threshold production of the multistrange Xi(-) hyperon

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

<\beta\gamma>_{L}

Physical Review Letters | 1997

The energy dependence of flow in Ni induced collisions from 400A to 1970A MeV

J. L. Chance; S. Albergo; F. Bieser; F.P. Brady; Z. Caccia; D. Cebra; A. D. Chacon; Y. Choi; Salvatore Costa; J. B. Elliott; M. L. Gilkes; J. A. Hauger; A. Hirsch; E. L. Hjort; A. Insolia; M. Justice; D. Keane; J. Kintner; Michael Annan Lisa; H. S. Matis; M. A. McMahan; C. McParland; D. L. Olson; M. D. Partlan; Norbert T. Porile; R. Potenza; G. Rai; J. Rasmussen; Hans Georg Ritter; J. Romanski

, as a function of the logarithm of beam energy.

Physical Review Letters | 2000

Nuclear multifragmentation, percolation and the Fisher Droplet model: common features of reducibility and thermal scaling

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

A systematic study of energy spectra for light particles emitted at midrapidity from Au+Au collisions at {ital E}= (0.25--1.15){ital A} GeV reveals a significant nonthermal component consistent with a collective radial flow. This component is evaluated as a function of bombarding energy and event centrality. Comparisons to quantum molecular dynamics and Boltzmann-Uehling-Uhlenbeck models are made for different equations of state.

Physics Letters B | 1998

The search for the scaling function in the multifragmentation of gold nuclei

Using the large acceptance Time Projection Chamber of experiment E895 at Brookhaven, measurements of collective sideward flow in Au+Au collisions at beam energies of 2A, 4A, 6A, and 8A GeV are presented in the form of in-plane transverse momentum and the first Fourier coefficient of azimuthal anisotropy v(1). These measurements indicate a smooth variation of sideward flow as a function of beam energy. The data are compared with four nuclear transport models which have an orientation towards this energy range. All four exhibit some qualitative trends similar to those found in the data, although none show a consistent pattern of agreement within experimental uncertainties.

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