Paola Gallo
The composition of vast books is a laborious and impoverishing extravagance.
To go on for five hundred pages developing an idea whose perfect oral
exposition is possible in a few minutes! A better course of procedure
is to pretend that these books already exist, and then to offer a resume,
a commentary... More reasonable, more inept, more indolent, I have preferred
to write notes upon imaginary books. - Jorge Luis Borges (1899 - 1986)
In the prologue of the "Garden of Forking Paths"
Publications 129.
M. Martin Conde, Rovere and P. Gallo
128.
L. Lupi, B. Vazquez Ramirez and P. Gallo
127.
Gaia Camisasca, Antonio Iorio, Lorenzo Tenuzzo, Paola Gallo
126.
G. Camisasca, M. De Marzio and P. Gallo
125.
P. Gallo, G. Camisasca and M. Rovere
124.
P. Gallo and M. Rovere
123.
L. Tenuzzo, G. Camisasca and P. Gallo,
122.
A. Iorio, M. Minozzi, L. Lupi, G. Camisasca and P. Gallo,
121.
G. Camisasca, M. De Marzio, M. Rovere and P. Gallo
120.
A. Iorio, M. Minozzi, G. Camisasca, M. Rovere and P. Gallo
119.
P. Gallo, T. Loerting, F. Sciortino
118.
Antonio Iorio, Gaia Camisasca, Mauro Rovere and Paola Gallo,
117.
Antonio Iorio, Gaia Camisasca e Paola Gallo,
116.
Paola Gallo and Francesco Sciortino,
115.
Antonio Iorio, Gaia Camisasca e Paola Gallo,
114.
Gaia Camisasca, Antonio Iorio, Margherita De Marzio e Paola Gallo,
113.
M. M. Conde, M.Rovere and P. Gallo,
112.
G. Camisasca, M. De Marzio, M.Rovere and P. Gallo,
111.
M. Martin Conde, M.Rovere and P. Gallo,
110.
Paola Gallo and H. Eugene Stanley,
Spontaneous NaCl-Doped Ices Ih, Ic, III, V and VI.
Understanding the mechanism of ion inclusion and
its dependence on the crystalline structure of ice
submitted (2021).
Dynamical crossover and its connection to the
Widom line in supercooled TIP4P/Ice water
submitted (2021).
Slow Dynamics of Biological Water
Book chapter , submitted
(2021).
Effect of Trehalose on Protein Cryoprotection: Insights on the Mechanism of Slowing Down of Hydration Water
J. Chem. Phys. 153 , 224503
(2020).
Dynamic crossovers in water under extreme conditions
Book chapter , submitted
(2021).
Liquid State Physics
Book , in press Springer
(2021).
Protein-Water and Water-Water long-time relaxations in Protein
Hydration Water upon cooling: a close look through density correlation
functions
Molecules 25 , 4570 (2020).
Slow Dynamics of supercooled trehalose hydration water in
comparison with bulk water
Atti della Accademia Peloritana dei Pericolanti (AAPP) 98 ,
A8
(2020).
Erratum: High density liquid structure enhancement in glass forming aqueous solution of LiCl [J. Chem. Phys. 148, 222829 (2018)]
J. Chem. Phys. 152 , 109901
(2020).
Slow dynamics of supercooled hydration water in contact with lysozyme:examining the cage effect at different length scales
Phil. Mag. 1-14
(2020).
Supercooled Water: a polymorphic liquid with a cornucopia of behaviours
J. Chem. Phys. 151 , 210401
(2019).
Characterization of hydration water in supercooled water-trehalose solutions: the role of the hydrogen bonds network
J. Chem. Phys. 151 , 044507
(2019).
Glassy dynamics of water at interface with biomolecules: a Mode
Coupling Theory test
Science China 62 , 107011
(2019).
Several glasses of water but one dense liquid
Proceedings of the National Academy of Sciences
116 , 9149-9151
(2019).
Slow dynamics of hydration water and the trehalose dynamical transition
J. Mol. Liq. 282 , 617
(2019).
Structure and slow dynamics of protein hydration water
J. Mol. Liq. 268 , 903
(2018).
Molecular dynamics simulations of freezing-point
depression of TIP4P/2005 water in solution with NaCl
J. Mol. Liq. 261 , 513
(2018).
High density liquid structure enhancement in glass forming
aqueous solution of LiCl
J. Chem. Phys. 148 , 222829
(2018).
High precision determination of the melting points of water TIP4P/2005
and water TIP4P/Ice models by the direct coexistence technique
J. Chem. Phys.,
147 , 244506
(2017).
Supercooled Water reveals its secrets
Science 358 , 6370
(2017).
Paola Gallo has been interviewed
on the topics of this prespective paper
by several journalists.
Press articles covering the subject
and quoting the author have appeared on Le Monde (FR), Science & Vie (FR),
Focus,
Physics World (IOP publishing).
109.
P. Gallo, M. Martin Conde, D. Corradini,
P. Pugliese and M. Rovere
Structural properties of ionic aqueous solutions
in "Many-body approaches at different scales: A tribute to Norman H. March on the occasion of his 90th birthday",
pag. 153,
G. G. N. Angilella and C. Amovilli editors (New York, Springer, 2018).
108.
P. Pugliese, M. M. Conde, M. Rovere and P. Gallo,
Freezing Temperatures, Ice Nanotubes Structures, and Proton
Ordering of TIP4P/ICE Water inside Single Wall Carbon Nanotubes
J. Phys. Chem. B,
121 , 10371
(2017).
107.
M. M. Conde, M. Rovere and P. Gallo,
Spontaneous NaCl-Doped Ice at Seawater Conditions
Phys. Chem. Chem. Phys.,
19 , 9566
(2017).
106.
Margherita De Marzio, Gaia Camisasca, Mauro Rovere and Paola Gallo,
Fragile to strong crossover and Widom line in
supercooled water: a comparative study
Front Phys.
13 , 136103
(2018).
105.
G. Camisasca, M. De Marzio, M. Rovere and P. Gallo,
Slow dynamics and structure of supercooled water in
confinement
Entropy,
19 , 185
(2017).
104.
M. De Marzio, G. Camisasca, M. Martin Conde, M. Rovere and P. Gallo,
Structural properties and fragile to strong transition in confined water
J. Chem. Phys.,
146 , 084505
(2017).
The article was selected for a press release by AIP entitled:
"Exploring the Mysteries of Supercooled Water"
and the release was reproduced in many blogs.
103.
M. De Marzio, G. Camisasca, M. Rovere and P. Gallo,
Microscopic origin of the Fragile to Strong Crossover in Supercooled Water:
the role of Activated Processes
J. Chem. Phys., 146 , 084502
(2017).
102.
G. Camisasca, M. De Marzio, D. Corradini and P. Gallo,
Two structural relaxations in protein hydration water and their dynamic crossovers
J. Chem. Phys., 145 , 044503
(2016).
101.
M. De Marzio, G. Camisasca, M. Rovere and P. Gallo,
Fragile to strong crossover in supercooled water: a comparison
between TIP4P and TIP4P/2005 models
Il Nuovo Cimento, 39C , 302
(2016).
100.
P. Gallo, K. Amman-Winkel, C.A. Angell, M. Anisimov, F. Caupin,
C. Chakravarty, E. Lascaris, T. Loerthing, A. Panagiotopoulos,
J. Russo, J.A. Sellberg, H.E. Stanley, H. Tanaka, C. Vega, L. Xu,
L.G.M. Pettersson
Water: A Tale of Two Liquids
Chem. Rev., 116 , 7463-7500
(2016).
99.
M. De Marzio, G. Camisasca, M. Rovere and P. Gallo,
Mode Coupling Theory and Fragile to Strong Transition in
Supercooled TIP4P/2005 Water
J. Chem. Phys., 144 , 074503
(2016).
98.
D. Corradini, M. Rovere and P. Gallo,
The Widom line and dynamical crossover in supercritical water:
popular water models versus experiments
J. Chem. Phys., 143 , 114502
(2015).
97.
P. Gallo, D. Corradini and M. Rovere
Widom line and dynamical crossovers: routes to understand
supercritical water
Nature Communications 5:5806 doi: 10.1038/ncomms6806
(2014).
96.
P. Gallo and M. Rovere
Relation between the two body entropy and the relaxation time
in supercooled water
Phys. Rev. E, 91, 012107
(2015).
95.
Juan Aragones, Mauro Rovere, Carlos Vega, Paola Gallo.
Computer simulation study of the structure of LiCl aqueous solutions:
test of non standard mixing rules in the ion interaction.
J. Phys. Chem. B, 118 , 7680
(2014).
Also included into the Virtual Issue
"Ion Pairing: From Water Clusters to the Aqueous Bulk".
94.
P. Gallo, D. Corradini and M. Rovere
Fragile to strong crossover at the Widom line in supercooled
aqueous solutions of NaCl.
J. Chem. Phys., 139 , 204503
(2013).
93.
P. Gallo, D. Corradini, and M. Rovere
Do ions affect the structure of water? The case of
potassium halides.
J. Mol. Liq., 189 , 52
(2014).
92.
D. Corradini, E. Strekalova, H. E. Stanley and P. Gallo
Microscopic mechanism of protein cryopreservation in an aqueous
solution with trehalose
Sci. Rep. 3 , 1218
(2013).
91.
D. Corradini, Z. Su, H. E. Stanley and P. Gallo
A molecular dynamics study of the equation of state
and structure of supercooled aqueous solutions of methanol
J. Chem. Phys., 137 , 184503
(2012).
90.
Paola Gallo and Francesco Sciortino
Ising universality class for the liquid-liquid
critical point of a one component fluid: A finite-size
scaling test
Phys. Rev. Lett 109, 177801
(2012).
89.
P. Gallo and M. Rovere
Mode Coupling and fragile to strong transition in supercooled TIP4P water
J. Chem. Phys., 137 , 164503
(2012).
88.
D. Corradini, P. Gallo, S.V. Buldyrev and H.E. Stanley
Fragile to strong crossover coupled to liquid-liquid
transition in hydrophobic solutions
Phys. Rev. E 85, 051503
(2012).
87.
P. Gallo, D. Corradini and M. Rovere
Excess entropy of water in a supercooled solution of salt.
Mol. Phys. 109, 2069
(2011).
86.
P. Gallo, D. Corradini and M. Rovere
Ion hydration and structural properties
of water in aqueous solutions
at normal and supercooled conditions: a test
of the structure making and breaking concept.
Phys. Chem. Chem. Phys., 13, 19814
(2011).
85.
D. Corradini and P. Gallo
Liquid-Liquid critical point in NaCl aqueous solutions: concentration effects
J. Phys. Chem. B 115, 14161
(2011).
84.
Elena G. Strekalova, Dario Corradini, Marco G. Mazza, Sergey V. Buldyrev,
Paola Gallo, Giancarlo Franzese, H. Eugene Stanley,
Liquid-Liquid Critical Point of Water in Hydrophobic Environments
J. Biol. Phys.
38, 97
(2012).
83.
P. Gallo, M. Rovere and S.-H. Chen
Water confined in MCM-41: a Mode Coupling Theory analysis
J. Phys. Condens. Matter
24, 064109
(2012).
82.
A. Magno and P. Gallo
Understandig the mechanism of bioprotection:
a comparative study of aqueous solutions of
trehalose and maltose upon supercooling
J. Phys. Chem. Lett., 2, 977
(2011).
81.
D. Corradini, M. Rovere and P. Gallo
Structural properties of high density and low density water
in supercooled aqueous solutions of salt
J. Phys. Chem. B 115, 1461
(2011).
80.
P. Gallo and M. Rovere
Lennard-Jones binary mixture in disordered matrices: exploring the
Mode Coupling scenario at increasing confinement
J. Phys.: Condens. Matter , 23, 234118
(2011).
79. D. Corradini, M. Rovere and
P. Gallo
On the possibility of detecting the liquid/liquid critical point in
aqueous solutions of salt
Proceedings of the
International School of Physics Enrico Fermi, course CLXXVI,
Complex materials in physics and biology
,
Edited by F. Mallamace and H.E. Stanley, pag.405 (2012).
78. D. Corradini, S. V. Buldyrev,
P. Gallo and H. E. Stanley
Liquid-liquid critical point of mixture of Jagla ramp potential particles
and Hard Spheres
Proceedings of the
International School of Physics Enrico Fermi, course CLXXVI,
Complex materials in physics and biology
,
Edited by F. Mallamace and H.E. Stanley, pag. 393 (2012).
77. Dario Corradini, Sergey V. Buldyrev,
Paola Gallo and H. Eugene Stanley
Effects of hydrophobic solutes on the liquid-liquid critical point.
Phys. Rev. E , 81, 061504
(2010).
76. D. Corradini, P. Gallo and M. Rovere
Structure and thermodynamics of supercooled aqueous solutions:
ionic solutes compared with water in a hydrophobic environment.
J. Mol. Liq. 159, 18 (2011).
75. P. Gallo and M. Rovere (Guest Editors)
Water at interfaces (Preface)
J. Phys.: Condens. Matt. , 22, 280301
(2010).
74. P. Gallo, M. Rovere and S.-H. Chen
Anomalous dynamics
of water confined in MCM-41 at different hydrations.
J. Phys.: Condens. Matt. , 22, 284102
(2010).
73. D. Corradini, P. Gallo and M. Rovere
Molecular dynamics simulations of an aqueous solution of salts
for different concentrations
J. Phys.: Condens. Matt. , 22, 284104
(2010).
72. D. Corradini, P. Gallo, M. Rovere,
Structural properties of supercooled sodium chloride aqueous solutions
International Journal
of Liquid state science,
2, 53
(2010).
71. D. Corradini, M. Rovere and P. Gallo
A route to explain water anomalies from
results on an aqueous solution of salt
J. Chem. Phys., 132, 134508
(2010).
arXiv:1003.5199
70. P. Gallo, M. Rovere and S.-H. Chen ,
Dynamic crossover in supercooled confined water:
understanding bulk properties through confinement
J. Phys. Chem. Lett., 1, 729
(2010).
69. P. Gallo, A. Attili and M. Rovere,
Mode Coupling behavior of a Lennard Jones binary mixture upon
increasing confinement
Phys. Rev. E, 80, 061502
(2009).
68. D. Corradini, P. Gallo and M. Rovere,
Thermodynamics of Supercooled Water in Solutions
Journal of Physics: Conference Series,
177, 012003 (2009).
67. D. Corradini, P. Gallo and M. Rovere,
Effect of concentration on the thermodynamics of sodium chloride
aqueous solutions in the supercooled regime
J. Chem. Phys., 130, 154511
(2009).
arXiv:0903.391
66. D. Corradini, P. Gallo and M. Rovere,
Thermodynamic behaviour and structural properties of an
aqueous sodium chloride solution upon supercooling
J. Chem. Phys., 128, 244508
(2008).
arXiv:0805.2565v1
65. P. Gallo and M. Rovere,
Structural properties and liquid spinodal of water confined in a
hydrophobic environment
Phys. Rev. E, 76, 061202
(2007).
arXiv:0804.2964v1
64. P. Gallo, M. Minozzi and M. Rovere,
Spinodal of supercooled polarizable water
Phys. Rev. E 75, 011201 (2007).
cond-mat/0611587
63. V. De Grandis, P. Gallo and M. Rovere,
The phase diagram of confined fluids.
J. Mol Liq. 134, 90 (2007).
62. P. Gallo and M. Rovere,
Glass transition in confinement.
Proceedings of the
3rd international workshop on "Flow Dynamics",
Edited by M. Tokuyama and S. Maruyama,
AIP Conference Proceedings, vol. 832, p. 81 (2006).
61. V. De Grandis, P. Gallo and M. Rovere,
Liquid-Liquid trasition of simple liquids confined in fractal porous
materials.
Europhys. Lett. 75, 901 (2006).
cond-mat/0609272
60. M. Minozzi, P. Gallo and M. Rovere,
Supercooled water: a Molecular Dynamics simulation study
with a polarizable potential.
J. Mol Liq. 127, 2832 (2006).
59. A. Attili, P. Gallo and M. Rovere,
Mode Coupling behaviour of a Lennard Jones binary mixture: a comparison
between bulk and confined phases.
J. Chem. Phys. 123, 174510 (2005).
cond-mat/0510148
58. V. De Grandis, P. Gallo and M. Rovere,
The phase diagram of confined fluids.
Proceedings of the
Symposium in honour of M.P. Tosi
Highlights in the quantum theory of condensed matter,
Edited by F. Beltram, p.3 (2005).
57. Paola Gallo, Andrea Attili and Mauro Rovere,
Glass Transition in confinement: a Lennard-Jones binary mixture study
Computer Physics Communication 169 , 214 (2005).
56. P. Cristofori, P. Gallo and M. Rovere,
Local order in acqueous solutions of rare gases and
the role of the solute concentration:
a computer simulation study with a polarizable potential.
Mol. Phys. 103, 501 (2005).
cond-mat/0411146
55. A. Attili, P. Gallo and M. Rovere,
Inherent Structures and Kauzman Temperature of confined liquids.
Phys. Rev. E 71, 031204 (2005).
cond-mat/0501695
54. V. De Grandis, P. Gallo and M. Rovere,
53. V. De Grandis, P. Gallo and M.
Rovere,
Computer simulations of the phase diagram for a fluid
confined in a fractal and disordered porous material.
Phys. Rev. E 70, 061505 (2004).
cond-mat/0411366
Computer simulations of structural
properties of diluite aqueous solutions
of rare gases from ambient to supercritical conditions.
Proceedings of the
International School of Physics Enrico Fermi, course CLV,
The physics of
complex systems (New Advances and Perspectives),
Edited by F. Mallamace and H.E. Stanley, p.501 (2004).
52. P. Gallo, A. Attili and M. Rovere,
Slow dynamics of a confined supercooled
binary mixture in comparison with the bulk phase
Philosophical Magazine 84,
1397 (2004).
51. P. Gallo, R. Pellarin and M.
Rovere,
Slow dynamics of a confined supercooled
binary mixture II: Q space analysis
Phys. Rev. E 68, 061209 (2003).
cond-mat/0310725
49. M. Rovere and
P. Gallo
Effects of confinement on static
and dynamical properties of water
European Physical Journal E 12 ,
77 (2003).
47. P. Gallo, R. Pellarin and M.
Rovere,
Slow dynamics of a confined supercooled
binary mixture: direct space analysis
Phys. Rev. E 67,041202 (2003).
cond-mat/0302298
46. M. Rovere and P. Gallo
Strong layering effects and anomalous
dynamical behaviour in confined water at low hydration
J. Phys. : Condens. Matter 15, S145
(2003).
45. V. De Grandis, P. Gallo and M. Rovere,
Computer simulations of structural
properties of diluite aqueous solutions of argon at supercritical conditions
J. Chem. Phys. 118, 3646 (2003).
cond-mat/0212150
44. P. Gallo, M. Rapinesi and M. Rovere,
Confined water in the low hydration
regime
J. Chem. Phys. 117, 369 (2002).
cond-mat/0204144
43. P. Gallo, R. Pellarin and M. Rovere
Single particle dynamics of a
confined Lennard-Jones binary mixture in the supercooled regime.
Physica A 314, 530 (2002).
42. C. Fusco, A. Fasolino, P. Gallo, A. Petri and
M. Rovere,
A microscopic model for granular
compaction with friction.
Phys. Rev. E 66,031301 (2002).
cond-mat/0207211
41. P. Gallo, M.A. Ricci and M. Rovere,
Layer analyisis of the structure
of water confined in Vycor Glass.
J. Chem. Phys. 116, 342 (2002).
cond-mat/0107603
40. P. Gallo, R. Pellarin and M. Rovere,
Mode Coupling relaxation scenario
in a confined glass former.
Europhys. Lett. 57, 212 (2002).
cond-mat/0107601
39. P. Gallo,
Relaxations in supercooled confined
water.
in "New kinds of phase transitions, transformations
in disordered substances".
Eds.V.V. Brazhkin, S.V Buldyrev, V.N. Ryzhov and H.E. Stanley,
NATO SCIENCE SERIES: II: Mathematics, Physics and Chemistry,
Kluwer Academic Publishers,Dordrecht, Vol 81 p. 381 (2002).
38. C. Fusco, P. Gallo, A. Petri and M. Rovere,
Slow dynamics of k-mers on a square
lattice.
Philosophical Magazine B 82, 375 (2002).
37. F. Venturini, P. Gallo, M.A. Ricci, A.R. Bizarri,
S. Cannistraro,
Study of the beta relaxation in
supercooled confined water.
Philosophical Magazine B 82, 507 (2002).
36. P. Gallo, M.A. Ricci and M. Rovere
Supercooled Confined Water and
the Mode Coupling Scenario.
Physica A 304, 53 (2002).
35. P. Gallo and M. Rovere
Dynamical properties of confined
water upon supercooling.
Conference Proceedings "Francesco Paolo Ricci: his legacy
and future perspectives in neutron spectroscopy"
Edited by M. Nardone and M.A. Ricci (2001).
34. M. Rovere and P. Gallo,
Numerical simulation of structural
and dynamical properties of confined liquids.
Lecture notes of the XI Scuola Nazionale di Fisica della
Materia,
"Statistical Physics of complex fluids and fluids in complex
geometries", Torino Villa Gualino 4-9 Settembre 2000.
33. C. Fusco, P. Gallo, A. Petri and M. Rovere,
Stretched exponential relaxation
in a diffusive lattice model.
Phys. Rev. E 65,026127 (2002).
cond-mat/0110648
32. C. Fusco, P. Gallo, A. Petri and M. Rovere,
Random sequential adsorption and
diffusion of dimers and k-mers on a square lattice.
J. Chem. Phys. 114, 7563 (2001).
cond-mat/0103582
31. F. Venturini, P. Gallo, M.A. Ricci, A.R. Bizarri,
S. Cannistraro,
Low frequency scattering excess
in supercooled confined water.
J. Chem. Phys. 114, 10010 (2001).
30. P. Gallo, M. Rovere, E. Spohr,
Glass transition and layering
effect in confined water: a computer simulation study.
J. Chem. Phys. 113, 11324 (2000).
cond-mat/0010147
29. P. Gallo, M. Rovere, E. Spohr,
Supercooled confined water and
the Mode Coupling Crossover Temperature.
Phys. Rev. Lett. 85, 4317 (2000).
cond-mat/0002456
28. P. Gallo and M. Rovere,
Molecular dynamics study of the
glass transition in confined water.
Proceedings of the International Workshop on ``Dynamics
in Confinement'',
Journal de Physique IV, Vol.X, 2000, Pr7-203, Eds.:B.Frick,R.Zorn,H.Buttner,
EDP Science, Les Ulis, France.
cond-mat/0002455
27. C. Hartnig, W. Witschel, E.Spohr,
P. Gallo, M.A. Ricci and M. Rovere,
Modifications of the hydrogen
bond network of liquid water in a cylindrical SiO_2 pore.
J. Mol Liq. 85, 127 (2000).
cond-mat/0002453
26. Paola Gallo,
Single particle slow dynamics
of confined water.
Phys. Chem. Chem. Phys. 2, 1607 (2000).
cond-mat/0003027
25. M.A. Ricci, F. Bruni, P. Gallo, M. Rovere and
A.K. Soper
Water in confined geometries:
experiments and simulations.
J. Phys.: Condens. Matter 12, A345 (2000).
24. P. Gallo, M. Rovere, M.A. Ricci, C. Hartnig,
E. Spohr
Non-exponential kinetic behaviour
in confined water.
Europhys. Lett. 49, 183 (2000).
cond-mat/9908023
23. P. Gallo, M. Rovere, M.A. Ricci, C. Hartnig,
E. Spohr,
Evidence of glassy behaviour of
water molecules in confined states.
Philosophical Magazine B 79, 1923 (1999).
22. E. Spohr, C. Hartnig, P. Gallo and M. Rovere,
Water in porous glasses. A computer
simulation study.
J. Mol Liq. 80, 165 (1999).
21. S.-H. Chen, C. Liao, F. Sciortino, P.Gallo,
P. Tartaglia,
Models of Single Particle and
Collective Dynamics in Supercooled Water.
Phys. Rev. E 59, 6708 (1999).
20. P. Gallo, F. Sciortino, P. Tartaglia and S.-H.
Chen,
Single Particle Dynamics of Supercooled
Water and the Kinetic Glass Transition.
In the proceeedings of the ``International Conference on
DISORDER AND CHAOS''
Eds. A. Vulpiani, M. Serva, G. Parisi, L. Peliti, L. Pietronero,
J. Phys. IV France, 8 Pr6-109 (1998).
19. Sow-Hsin Chen and Paola Gallo,
Slow Dynamics of Water Near Hydrophilic
Surfaces.
Published on World Scientific Book of the Proceedings
for the Symposium in honor of Prof. Wolgang Kroll (1998).
18. S.-H. Chen, P. Gallo,
F. Sciortino, P. Tartaglia,
Slow Dynamics in a Model and Real
Supercooled Water
In ``Supercooled liquids: advances and novel applications''
edited by J.T. Fourkas.
ACS: SYMPOSIUM SERIES vol.676 pag.264 (1997).
17. F. Sciortino, P. Tartaglia, P. Gallo, S.-H.
Chen,
Slow Dynamics in Supercooled Water.
In ``Structure and dynamics of glasses and glass formers''
edited by
C.A. Angell, T. Egami, J. Kieffer, U. Nicnhaus and K.L.
Ngai. MRS Symposia Proceedings No.455
(Materials Research Society, \underline{Pittsburg}) pag.
235 (1997).
16. S.-H. Chen, P. Gallo, F. Sciortino, P. Tartaglia,
Molecular-dynamics Study of Incoherent
Quasielastic
Neutron-Scattering Spectra of
Supercooled Water.
Phys. Rev. E 56, 4231 (1997).
15. F. Sciortino, S.-H. Chen, P. Gallo, P. Tartaglia,
An Ideal Glass Transition in Supercooled
Water?
Complex Behaviour of glassy systems, Proceedings of the
14th Sitges Conference,
Ed.s Miguel Rubi and Conrado Perez-Vincente, Springer Berlin
492, pag. 90 (1997).
14. F. Sciortino, P. Gallo, P. Tartaglia, S.-H.
Chen,
Supercooled Water and the Kinetic
Glass Transition.
Phys. Rev. E 54, 6331 (1996).
13. P. Gallo, F. Sciortino, P. Tartaglia, S.-H.
Chen,
Simulation of Slow Dynamics in
Supercooled Water.
Proceedings del Workshop on non equilibrium phenomena in
supercooled fluids,
glasses and amorphous materials, World Scientific Publishing
Co. pag.389 (1996).
12. S.-H. Chen, P. Gallo, M.-C. Bellissent-Funel,
Slow Dynamics of Water in supercooled
states and near Hydrophilic Surfaces.
Proceedings del Workshop on non equilibrium phenomena in
supercooled fluids,
glasses and amorphous materials, World Scientific Publishing
Co., pag.186 (1996).
11. P. Gallo, F. Sciortino, P. Tartaglia, S.-H.
Chen,
Slow Dynamics of Water Molecules
in supercooled States.
Phys. Rev. Lett.
76, 2730 (1996).
10. S.H. Chen, P. Gallo, M.-C. Bellissent-Funel,
Slow Dynamics of Interfacial Water.
Can. Jour. of Phys. 73, 703 (Nov.-Dec. 1995).
Invited paper on the special Issue in Honour of B.N. Brockhouse for the Nobel Prize award.
9. A. Cordelli, P. Gallo,
The vibrational density of states
of three dimensional quasicrystals.
J. Phys. : Condens. Matter 7,1245 (1995).
8. P. Benassi, P. Gallo, G. Ruocco, G. Signorelli,
V.Mazzacurati,
Induced light scattering from
electrically disordered solids.
Induced Spectroscopy: Advances and Applications. G. C.
Tabisz and M.N. Newmann Eds.,
Kluwer Academic Publisher Dordrecht, NL, pag. 307 (1995).
7. P.Gallo, V.Mazzacurati, G.Ruocco, G.Signorelli,
Microscopic model for the two
phonon Raman spectra of Alkaly Halides.
Phys. Rev. B 47, 11830 (1993).
6. E. Di Fabrizio, M. Nardone, A. Nucara, P. Gallo,
G. Ruocco,
Non Lorentzian depolarized Raman
lineshapes in n-Pentanol.
J. Chem. Phys. 97, 6136 (1992).
5. P. Benassi, P. Gallo, G. Ruocco, G. Signorelli,
V. Mazzacurati,
Theory of Raman and Brillouin
scattering in disordered solids.
Philosophical Magazine 65, 161 (1992).
4. P.Gallo, V.Mazzacurati, G.Ruocco, G.Signorelli,
Absolute two phonons Raman cross
section in Potassium Chloride.
Phys. Rev. B 43, 14268 (1991).
3. P.Gallo, V.Mazzacurati, G.Ruocco, G.Signorelli,
One and two phonons Raman spectra
in mixed Alkali Halides single crystal.
On the proceedings of XII International Conferences on
Raman Spectroscopy,
Columbia (SC), pag.442 (1990).
2. P.Gallo, V.Mazzacurati, G.Ruocco, G.Signorelli,
Microscopic model for the two
phonon Raman scattering in Alkali Halides.
On the proceedings of XII International Conferences
on Raman Spectroscopy,
Columbia (SC), pag.70 (1990).
1. P.Gallo, V.Mazzacurati, G.Ruocco
Evaluation of Brillouin scattering
intensities from rare gas crystals:
II - Introduction of short range
correction.
Mol. Phys. 71, 97 (1990).