Attività di Ricerca e Lista Pubblicazioni

Maurizio Gasperini svolge attivita' di ricerca nel campo della Relativita', della Cosmologia, della Teoria Gravitazionale e della Teoria delle Interazioni Fondamentali. E' inquadrato nel settore concorsuale 02/A2 (Fisica Teorica delle Interazioni Fondamentali). Per maggiori dettagli si veda l'allegata lista di lavori scientifici. Un elenco aggiornato e' anche disponibile sul sito INSPIRE-HEP, al seguente indirizzo:

https://inspirehep.net/literature?sort=mostrecent&size=25&page=1&q=find%20a%20gasperini%2C%20m&ui-citation-summary=true

Elenco delle Pubblicazioni di Maurizio Gasperini

(aggiornato al 30.09.2022)

  

• 2022

 

[240] M. Gasperini,

From pre- to post-big bang: an (almost) self-dual cosmological history,

in “The future of mathematical cosmology”’, ed. by S. Cotsakis and A. Yefremov, Phil.Trans. Roy. Soc. A, 380, 2230 (2022). https://doi.org/10.1098/rsta.2021.0179

 

• 2021

 

[239] G. Fanizza, M. Gasperini, E. Pavone and L. Tedesco, Linearized propagation equations for metric fluctuations in a general (non-vacuum) background geometry,

JCAP 07, 021 (2021). https://doi.org/10.1088/1475-7516/2021/07/021

 

[238] M. Gasperini,

Gravity at finite temperature, equivalence principle, and local Lorentz invariance, in “Breakdown of the Einstein’s Equivalence Principle”, ed. by A. G. Lebed (World Scientific, 2021), Cap. 3, p. 77.

 

[237] M. Gasperini,

Quantum string cosmology, Universe 7, 14 (2021). https://doi.org/10.3390/universe7010014

available at: https://www.mdpi.com/2218-1997/7/1/14

 

• 2020

 

[236] G. Fanizza, G. Franchini, M. Gasperini and L. Tedesco,

Comparing the luminosity distance for gravitational waves and electromagnetic signals in a simple model of quadratic gravity,

Gen. Rel. Grav. 52, 111 (2020). https://doi.org/10.1007/s10714-020-02760-5

 

[235] P. Conzinu, M. Gasperini and G. Marozzi, Primordial black holes from pre-big bang inflation, JCAP 08, 031 (2020). https://doi.org/10.1088/1475-7516/2020/08/031

 

[234] G. Fanizza, M. Gasperini, G. Marozzi, and G. Veneziano,

Generalized covariant prescriptions for averaging cosmological observables,

JCAP 02, 017 (2020). https://doi.org/10.1088/1475-7516/2020/02/017

La teoria delle stringhe e la cosmologia moderna,

in Atti del Convegno “Log@ritmi 2019 - La provocazione della Scienza”, (Liceo Salvemini, Bari, 28-30 Gennaio 2019), ISBN: 978-88-31293-07-5 (Paginaria Edizioni, Bari, 2020), p.53

 

• 2019

 

[232] G. Fanizza, M. Gasperini, G. Marozzi, and G. Veneziano,

Observation angles, Fermi coordinates, and the Geodesic-Light-Cone gauge,

JCAP 01, 004 (2019). https://doi.org/10.1088/1475-7516/2019/01/004

 

• 2018

 

[231] J. Quintin, R. H. Brandenberger, M. Gasperini and G. Veneziano, String hole gas in αt-corrected dilaton gravity,

Phys. Rev. D 98, 103519 (2018). https://doi.org/10.1103/PhysRevD.98.103519

 

[230] M. Gasperini,

Le onde gravitazionali nella fisica moderna, Ithaca: Viaggio nella Scienza XII, 5 (2018). http://ithaca.unisalento.it/

e-ISSN: 2282-8079

 

• 2017

 

[229] M. Gasperini,

On the initial regime of pre-big bang cosmology, JCAP 09, 001 (2017). https://doi.org/10.1088/1475-7516/2017/09/001

 

[228] M. Gasperini,

Constraints on the production of primordial magnetic seeds in pre-big bang cosmology,

JCAP 06, 017 (2017). http://dx.doi.org/10.1088/1475-7516/2017/06/017

 

[227] M. Gasperini,

“Theory of Gravitational Interactions”,

Second Edition, Collana UNITEXT for Physics, 373 pages, ISBN: 978-3-319-49681-8, DOI 10.1007/978-3-319-49682-5 (Springer International, 2017).

 

• 2016

Observable gravitational waves in pre-big bang cosmology: an update,

JCAP 12, 010 (2016). http://dx.doi.org/10.1088/1475-7516/2016/12/010

 

[225] M. Gasperini,

Do alien particles exist, and can they be detected?

Int. J. Mod. Phys. D 25, 1630030 (2016) doi: 10.1142/S0218271816300305 http://dx.doi.org/10.1142/S0218271816300305

 

[224] G. Fanizza, M. Gasperini, G. Marozzi, and G. Veneziano,

Time of flight of ultra-relativistic particles in a realistic Universe:

a viable tool for fundamental physics?,

Phys. Lett. B 757, 505 (2016).

 

• 2015

  

[223] M. Gasperini and G. Veneziano,

String theory and pre-big bang cosmology,

Il Nuovo Cimento C 38, 160 (2015).

 

[222] M. Gasperini,

Cosmology and short-distance gravity,

Int. J. Mod. Phys. D 24, 1544003 (2015).

 

[221] G. Fanizza, M. Gasperini, G. Marozzi, and G. Veneziano, A new approach to the propagation of light-like signals

in perturbed cosmological backgrounds,

JCAP 08, 020 (2015).

 

[220] M. Gasperini,

“Relativit`a Generale e Teoria della Gravitazione”

Second Edition, Collana UNITEXT for Physics, 362 pages, ISBN: 978-88-470-5689-3, DOI: 10.1007/978-88-470-5690-9 (Springer-Verlag Italia 2015).

 

• 2014

  

[219] M. Gasperini,

The twin paradox in the presence of gravity,

Mod. Phys. Lett. A 29, 1450149 (2014).

 

[218] M. Gasperini,

“Gravity, Strings and Particles: A Journey Into the Unknown”, ISBN: 978-3-319-00598-0, DOI: 10.1007/978-3-319-00599-7

125 pages (Springer International Publishing, Switzerland, 2014).

String theory and primordial cosmology,

in “Springer Handbook of Spacetime”, ed. by E. Ashtekar and V. Petkov

ISBN 978-3-642-41991-1, DOI: 10.1007/978-3-642-41992-8-35 (Springer-Verlag, Berlin Heidelberg, 2014), Cap. 35, p. 743.

 

[216] M. Gasperini,

“Gravit`a, stringhe e particelle: una escursione nell’ignoto”, Collana “I BLU” (popular book), 162 pages, Italian Edition ISBN: 978-88-470-5534-6, DOI: 10.1007/978-88-470-5535-3 (Springer-Verlag Italia, Milano, 2014).

 

• 2013

  

[215] G. Fanizza, M. Gasperini, G. Marozzi, and G. Veneziano, An exact Jacobi map in the geodesic light-cone gauge, JCAP 11, 019 (2013).

 

[214] I. Ben-Dayan, M. Gasperini, G. Marozzi, F. Nugier and G. Veneziano,

Average and dispersion of the luminosity-redshift relation in the concordance model,

JCAP 06, 002 (2013).

 

[213] L. Cosmai, G. Fanizza, M. Gasperini and L. Tedesco , Discriminating different models of luminosity-redshift distribution, Class. Quantum Grav. 30, 095011 (2013).

 

[212] I. Ben-Dayan, M. Gasperini, G. Marozzi, F. Nugier and G. Veneziano,

Do stochastic inhomogeneities affect dark-energy precision measurements?

Phys. Rev. Lett. 110, 021301 (2013).

 

[211] M. Gasperini,

“Theory of Gravitational Interactions”, Undergraduate Lecture Notes in Physics, 322 pages,

ISBN: 978-88-470-2690-2, DOI: 10.1007/978-88-470-2691-9 (Springer-Verlag, Berlin Heidelberg, 2013).

 

• 2012

 

[210] I. Ben-Dayan, M. Gasperini, G. Marozzi, F. Nugier and G. Veneziano, Backreaction on the luminosity-redshift relation

from gauge invariant light-cone averaging,

JCAP 04, 036 (2012).

 

[209] M. Gasperini,

“Lezioni di Cosmologia Teorica”,

Collana UNITEXT di Fisica e Astronomia, 250 pages, ISBN: 978-88-470-2483-0, DOI: 10.1007/978-88-470-2484-7 (Springer-Verlag, Milano, 2012).

• 2011

 

[208] M. Gasperini, G. Marozzi, F. Nugier and G. Veneziano,

Light-cone averaging in cosmology: formalism and applications,

JCAP 07, 008 (2011).

 

• 2010

 

[207] A. Barone, M. Gasperini and G. Rotoli,

Macroscopic Quantum Tunneling and the “cosmic” Josephson effect,

Phys. Rev.   D 82, 087301 (2010).

 

[206] M. Gasperini,

“Manuale di Relativit`a Ristretta”,

Collana UNITEXT di Fisica e Astronomia, 140 pages, ISBN: 978-88-470-1604-0

(Springer-Verlag, Milano, 2010).

 

[205] M. Gasperini,

“Lezioni di Relativit`a Generale e Teoria della Gravitazione”, Collana UNITEXT di Fisica e Astronomia, 290 pages,

ISBN: 978-88-470-1420-6 (Springer-Verlag, Milano, 2010).

 

[204] M. Gasperini, G. Marozzi and G. Veneziano,

A covariant and gauge invariant formulation of the cosmological “backreaction”,

JCAP 02, 009 (2010).

 

• 2009

 

[203] M. Gasperini, G. Marozzi and G. Veneziano,

Gauge invariant averages for the cosmological backreaction,

JCAP 03, 011 (2009).

 

• 2008

 

[202] M. Gasperini,

Why supersymmetry should be restored at the Tev Scale,

Int. J. Mod. Phys. D 17, 2521 (2008).

 

[201] M. Gasperini,

Higher-dimensional perturbations of the vacuum energy density,

JHEP 06, 009 (2008).

 

[200] L. Amendola, M. Gasperini and C. Ungarelli, Non-local dilaton coupling to dark matter: cosmic acceleration and pressure backreaction, Phys. Rev.   D 77, 123526 (2008).

[199] M. Gasperini,

“The Universe before the Big Bang: cosmology and string theory”, Astronomers’ Universe Series, 208 pages,

ISBN-13: 978-3540744191

(Springer-Verlag, Berlin Heidelberg, 2008).

 

[198] M. Gasperini,

Dilaton cosmology and phenomenology,

Lect. Notes Phys. 737, 787 (2008).

 

[197] M. Gasperini and J. Maharana,

Gabriele Veneziano: a concise scientific biography and an interview,

Lect. Notes Phys. 737, 3 (2008).

 

[196] M. Gasperini and J. Maharana (Eds.),

“String theory and fundamental interactions”

Springer Series Lecture Notes in Physics, Vol. 737,

974 pages, ISBN-13: 978-3-540-74232-6 (Springer-Verlag, Berlin Heidelberg, 2008).

 

• 2007

 

[195] M. Gasperini,

“Elements of String Cosmology”,

Cambridge monograph series in Theoretical and Mathematical Physics,

570 pages, ISBN-13: 978-0-521-86875-4

(Cambridge University Press, Cambridge UK, 2007).

 

• 2006

 

[194] L. Amendola, M. Gasperini and F. Piazza,

SNLS data are consistent with acceleration at z ≈ 3,

Phys. Rev.   D 74, 127302 (2006).

 

[193] M. Gasperini,

Ricordando Eduardo Caianiello,

La Biblioteca dei 500, sito web di Ulisse (SISSA, Trieste, 1 December 2006),

http://ulisse.sissa.it/biblioteca/saggio/2006/Ubib061201s001

 

[192] M. Gasperini,

A new scale in the sky,

Int. J. Mod. Phys. D 15, 2147 (2006).

 

[191] M. Gasperini,

Primordial magnetic seeds from string cosmology,

Astron. Nachr. 327, 399 (2006).

 

[190] M. Gasperini and S. Nicotri

Observable(?) cosmological signatures of superstrings in pre-big bang models of inflation,

Phys. Lett.   B 633, 155 (2006).

[189] M. Gasperini,

Phenomenology of the relic dilaton background,

in “Recent developments in gravitational physics”,

eds. I. Ciufolini, E.Coccia, M.Colpi, V.Gorini and R.Peron, Institute of Physics Conference Series N.187

(Taylor & Francis, New York, London, 2006), p. 475.

 

• 2005

  

[188] V. Bozza, M. Gasperini, M. Giovannini and G. Veneziano,

CMB anisotropies through axion decay in pre-big bang models, in Proc. of the “10th Marcel Grossmann Meeting”,

eds. M. Novello, S. P. Bergliaffa and R. Ruffini, (World Scientific, Hackensack, 2005), p. 1744.

 

[187] N. Bonasia and M. Gasperini,

Response of the common mode of interferometric detectors to a stochastic background of massive scalar radiation, Phys. Rev.   D 71, 104020 (2005).

 

[186] M. Cavagli`a, G. De Risi and M. Gasperini, Relic gravitons on Kasner-like brane,

Phys. Lett.   B 610, 9 (2005).

 

• 2004

 

[185] M. Gasperini,

La cosmologia di stringa,

in “Un arcobaleno di domande”,

tratto dalla sito Ulisse - Nella rete della scienza (SISSA, Trieste), a cura di F. Scarpa (Edizioni Dedalo, Bari 2004), p. 39.

 

[184] L. Amendola, M. Gasperini and F. Piazza,

Fitting Type Ia supernovae with coupled dark energy,

JCAP 09, 014 (2004).

 

[183] M. Gasperini,

Towards a future singularity?,

Int. J. Mod. Phys. D 13, 2267 (2004).

 

[182] M. Gasperini, M. Giovannini and G. Veneziano, Cosmological perturbations across a curvature bounce, Nuc. Phys. B 694, 206 (2004).

Late-time effects of Planck scale cosmology:

dilatonic interpretation of the dark energy field,

in Proc. of the Int. Conf. on “Thinking, Observing and Mining the Universe”

eds. G. Miele and G. Longo (World Scientific, Singapore, 2004), p. 153.

 

[180] V. Bozza, M. Gasperini, M. Giovannini and G. Veneziano, The axion as a curvaton in string cosmology models,

in in Proc. of the Int. Conf. on “Thinking, Observing and Mining the Universe”

eds. G. Miele and G. Longo (World Scientific, Singapore, 2004), p. 49.

 

• 2003

 

[179] M. Gasperini, Superstring cosmology,

in “Concise Encyclopedia on Supersymmetry”,

eds. J. Bagger, S. Duplij and W. Siegel (Kluwer Acad. Pub., Dordrecht, 2003), p. 437.

 

[178] M. Gasperini, M. Giovannini and G. Veneziano, Perturbations in a non-singular bouncing Universe, Phys. Lett.   B 569, 113 (2003).

 

[177] V. Bozza, M. Gasperini, M. Giovannini and G. Veneziano,

Constraints on pre-big bang parameter space from CMBR anisotropies,

Phys. Rev. D 67, 063514 (2003).

 

[176] L. Amendola, M. Gasperini, D. Tocchini-Valentini and C. Ungarelli, Early acceleration and adiabatic matter perturbations

in a class of dilatonic dark-energy models,

Phys. Rev. D 67, 043512 (2003).

 

[175] M. Gasperini and G. Veneziano,

The pre-big bang scenario in string cosmology,

Phys. Rep.   373, 1 (2003).

 

• 2002

 

[174] M. Gasperini,

L’universo prima del big bang,

in Realt`a Nuova (Rivista dell’Istituto Culturale Rotariano),

55. 5 (Ottobre 2002), p. 55.

 

[173] M. Gasperini,

Production and detection of relic dilatons in string cosmology, in Proc. of “The Ninth Marcel Grossmann Meeting” (University of Rome “La Sapienza”, July 2000),

eds. V. G. Gurzadyan, R. Jantzen and R. Ruffini

(World Scientific, Singapore, 2002), p. 1245.

L’universo prima del big bang. Cosmologia e teoria delle stringhe,

200 pages, ISBN 88-7423-052-X (Franco Muzzio, Editori Riuniti, Roma, Settembre 2002).

 

[171] V. Bozza, M. Gasperini, M. Giovannini and G. Veneziano, Assisting pre-big bang phenomenology through short-lived axions Phys. Lett.   B 543, 14 (2002).

 

[170] E. Coccia, M. Gasperini and C. Ungarelli, Sensitivity of spherical gravitational-wave detectors

to a stochastic background of nonrelativistic scalar radiation,

Phys. Rev. D 65, 067101 (2002).

 

[169] M. Gasperini, F. Piazza and G. Veneziano, Quintessence as a runaway dilaton,

Phys. Rev. D 65, 023508 (2002).

 

• 2001

 

[168] V. Bozza, M. Gasperini and G. Veneziano,

Localization of scalar fluctuations in a dilatonic brane-world scenario,

Nucl. Phys.   B 619, 191 (2001).

 

[167] G. De Risi and M. Gasperini,

Low-energy graceful exit in anisotropic string cosmology backgrounds,

Phys. Lett.   B 521, 335 (2001).

 

[166] M. Gasperini and C. Ungarelli,

Detecting a relic background of scalar waves with LIGO,

Phys. Rev. D 64, 064009 (2001).

 

[165] M. Gasperini,

Dilatonic interpretation of the quintessence?,

Phys. Rev. D 64, 043510 (2001).

 

[164] C. Cartier, E. J. Copeland and M. Gasperini, Gravitational waves in non-singular string cosmologies, Nucl. Phys. B 607, 406 (2001).

 

[163] G. De Risi and M. Gasperini,

A diagrammatic approach to the spectrum of cosmological perturbations,

Phys. Lett. B 503, 140 (2001).

 

[162] M. Gasperini,

New mechanism for the generation of primordial seeds for the cosmic magnetic fields,

Phys. Rev. D 63, 047301 (2001).

 

[161] M. Gasperini,

Elementary introduction to pre-big bang cosmology and to the relic graviton background,

in Gravitational Waves, Proc. of the Second SIGRAV School on “Gravitational Waves in Astrophysics, Comology and String Theory”, (Centre A. Volta, Como, April 1999), eds. I. Ciufolini et al. (IOP Publishing, Bristol, 2001), p. 280.

 

[160] M. Gasperini,

Birth of the Universe as anti-tunnelling from the string perturbative vacuum,

Int. J. Mod. Phys. D 10, 15 (2001).

  

• 2000

  

[159] M. Gasperini,

Problemi di cosmologia moderna,

in E` il futuro gi`a dato?, Proc. del Convegno su “Tempo e complessit`a”

(Salerno, Maggio 1999), ed. V. Vittoria (Guida Editore, Napoli, 2000), pag. 109.

 

[158] M. Gasperini,

Le onde gravitazionali: i piu` antichi resti fossili dell’universo primordiale,

INFN Notizie (Rivista Dell’Istituto Nazionale di Fisica Nucleare),

15. 3 (Maggio 2000), p. 15.

 

[157] M. Gasperini,

String cosmology versus standard and inflationary cosmology,

Class. Quantum Grav. 17, R1 (2000).

 

[156] M. Gasperini,

Signal-to-noise ratio for a stochastic background of massive relic particles,

Phys. Lett. B 477, 242 (2000).

 

[155] M. Gasperini,

Inflation and initial conditions in the pre-big bang scenario,

Phys. Rev. D 61, 87301 (2000).

 

• 1999

 

[154] M. Gasperini,

On the response of gravitational antennas to dilatonic waves,

Phys. Lett. B 470, 67 (1999).

 

[153] M. Gasperini,

Looking back in time beyond the big bang,

Mod. Phys. Lett. A 14, 1059 (1999).

 

[152] M. Gasperini,

Weighing the string mass with the COBE data,

in Proc. of the “Fifth Paris Cosmology Colloquium”

(Observatoire de Paris, June 1998), eds. H. J. De Vega and N. Sanchez

(Observatoire de Paris Publications, 1999), p. 317.

[151] M. Gasperini and G. Veneziano,

Constraint on pre-big bang models for seeding large-scale anisotropy by massive Kalb-Ramond axions,

Phys. Rev. D 59, 43503 (1999) .

 

[150] R. Durrer, M. Gasperini, M. Sakellariadou and G. Veneziano, Seeds of large-scale anisotropy in string cosmology,

Phys. Rev. D 59, 43511 (1999) .

 

• 1998

 

[149] M. Gasperini,

Low-energy quantum string cosmology,

Int. J. Mod. Phys.   A 13, 4779 (1998).

 

[148] R. Durrer, M. Gasperini, M. Sakellariadou and G. Veneziano, Massless (pseudo-)scalar seeds of CMB anisotropy,

Phys. Lett. B 436, 66 (1998).

 

[147] M. Gasperini,

Repulsive gravity in the very early Universe,

Gen. Rel Grav. 30, 1703 (1998).

 

[146] R. Brustein, M. Gasperini and G. Veneziano, Duality in cosmological perturbation theory, Phys. Lett. B 431, 277 (1998).

 

[145] M. Gasperini,

Testing string cosmology with gravity wave detectors,

in Proc. of the “2nd Edoardo Amaldi Conference on Gravitational Waves”

(CERN, July 1997), eds. E. Coccia et al., (World Scientific, Singapore, 1998), p. 62.

 

[144] M. Gasperini,

Birth of the Universe in string cosmology,

in Proc. of the “Fourth Paris Cosmology Colloquium”

(Observatoire de Paris, June 1997), eds. H. J. De Vega and N. Sanchez

(World Scientific, Singapore, 1998), p. 85 .

 

[143] M. Gasperini,

Relic gravitons from the pre-big bang: what we know and what we do not know, in String theory in curved space times, ed. N. Sanchez

(World Scientific, Singapore, 1998), p. 333.

 

[142] M. Gasperini and M. Giovannini,

Von-Neumann and Shannon-Wehrl entropy for squeezed states and cosmological particle production,

in String theory in curved space times, ed. N. Sanchez

(World Scientific, Singapore, 1998), p. 249.

[141] M. Gasperini, M. Giovannini, K. A. Meissner and G. Veneziano, Evolution of a string network in backgrounds with rolling horizons, in String theory in curved space times, ed. N. Sanchez

(World Scientific, Singapore, 1998), p. 49.

 

• 1997

 

[140] M. Gasperini,

Tensor perturbations in high-curvature string backgrounds,

Phys. Rev. D 56, 4815 (1997).

 

[139] A. Buonanno, M. Gasperini and C. Ungarelli,

A class of non-singular gravi-dilaton backgrounds,

Mod. Phys. Lett. A 12, 1883 (1997) .

 

[138] A. Buonanno, M. Gasperini, M. Maggiore and C. Ungarelli,

Expanding and contracting universes in third quantized string cosmology,

Class. Quantum Grav. 14, L97 (1997) .

 

[137] M. Gasperini, M. Maggiore and G. Veneziano, Towards a non-singular pre-big bang cosmology, Nucl. Phys. B 494, 315 (1997) .

 

[136] R. Brustein, M. Gasperini and G. Veneziano,

Peak and end point of the relic graviton background in string cosmology,

Phys. Rev. D 55, 3882 (1997) .

 

[135] M. Gasperini and M. Giovannini, Normal modes for metric fluctuations

in a class of higher-dimensional backgrounds,

Class. Quantum Grav. 14, 735 (1997) .

 

[134] M. Gasperini,

Relic dilatons in string cosmology,

in Proc. of the 12th It. Conf. on “General Relativity and Gravitational Physics”

(Rome, September 1996), eds. M. Bassan et al. (World Scientific, Singapore, 1997) p.181.

 

• 1996

 

[133] M. Gasperini and G. Veneziano,

Singularity and exit problems in two-dimensional string cosmology,

Phys. Lett. B 387, 715 (1996) .

 

[132] M. Gasperini and G. Veneziano,

Birth of the Universe as quantum scattering in string cosmology,

Gen. Rel. Grav. 28, 1301 (1996).

 

[131] M. Gasperini, J. Maharana and G. Veneziano, Graceful exit in quantum string cosmology, Nucl. Phys. B 472, 349 (1996).

 

[130] M. Gasperini, M. Giovannini, K. A. Meissner and G. Veneziano, Evolution of strings in cosmological backgrounds,

in Nucl. Phys. (Proc. Suppl.) B 49, 70 (1996).

 

[129] R. Brustein, M. Gasperini, M. Giovannini and G. Veneziano, Gravitational radiation from string cosmology,

in Proc. of the “Int. Europhysics Conf. on High Energy Physics”

(HEP 95, Brussels, July 1995), eds. J. Lemonne et al., (World Scientific, Singapore, 1996) p.408.

 

[128] M. Gasperini,

Status of string cosmology: phenomenological aspects,

in Proc. of the 4th Course of the Int. School of Astrophysics “D. Chalonge”

(Erice, September 1995), eds. N. Sanchez and A. Zichichi

(Kluwer Acad. Pub., Dordrecht, The Netherland, 1996), p. 305.

 

[127] M. Gasperini,

Amplification of vacuum fluctuations in string cosmology backgrounds, in Proc. of the “Third Paris Cosmology Colloquium”

(Observatoire de Paris, June 1995), eds. H. De Vega and N. Sanchez

(World Scientific, Singapore, 1996), p. 253.

 

• 1995

 

[126] M. Gasperini, M. Giovannini and G. Veneziano,

Electromagnetic origin of the CMB anisotropy in string cosmology,

Phys. Rev. D 52, 6651 (1995).

 

[125] M. Gasperini, M. Giovannini and G. Veneziano, Primordial magnetic fields from string cosmology, Phys. Rev. Lett. 75, 3796 (1995).

 

[124] R. Brustein, M. Gasperini, M. Giovannini and G. Veneziano, Relic gravitational waves from string cosmology,

Phys. Lett. B 361, 45 (1995).

 

[123] R. Brustein, M. Gasperini, M. Giovannini, V. Mukhanov and G. Veneziano, Metric perturbations in dilaton-driven inflation,

Phys. Rev. D 51, 6744 (1995).

 

[122] M. Gasperini and R. Ricci,

Homogeneous conformal string backgrounds,

Class. Quantum Grav. 12, 677 (1995).

[121] M. Gasperini,

The inflationary role of the dilaton in string cosmology,

in Proc. of the “First Int. Workshop on Birth of the Universe”

and Fundamental Physics (Rome, May 1994),

71. F. Occhionero (Springer-Verlag, Berlin, 1995), p. 71.

 

[120] M. Gasperini,

Phenomenological aspects of the pre-big-bang scenario in string cosmology , in Proc. of the “Second Paris Cosmology Colloquium”

(Observatoire de Paris, June 1994), eds. H. De Vega and N. Sanchez

(World Scientific, Singapore, 1995) p. 429.

  

• 1994

  

[119] M. Gasperini and G. Veneziano,

Dilaton production in string cosmology,

Phys. Rev. D 50, 2519 (1994).

 

[118] M. Gasperini,

Relaxed bounds on the dilaton mass in string cosmology scenario,

Phys. Lett. B 327, 214 (1994).

 

• 1993

  

[117] M. Gasperini, R. Ricci and G. Veneziano, A problem with non-abelian duality?, Phys. Lett. B 319, 438 (1993).

 

[116] M. Gasperini and G. Veneziano,

Inflation, deflation and frame-independence in string cosmology,

Mod. Phys. Lett. A8, 3701 (1993).

 

[115] M. Gasperini and M. Giovannini,

Quantum squeezing and cosmological entropy production,

Class. Quantum Grav. 10, L133 (1993).

 

[114] M. Gasperini, M. Giovannini and G. Veneziano,

Squeezed thermal vacuum and the maximal scale for inflation,

Phys. Rev. D 48, R439 (1993).

 

[113] M. Gasperini and M. Giovannini,

Entropy production in the cosmological amplification of the vacuum fluctuations,

Phys. Lett. B 301, 334 (1993).

 

[112] M. Gasperini and M. Giovannini,

Dilaton contributions to the cosmic gravitational wave background,

Phys. Rev. D 47, 1529 (1993).

[111] M. Gasperini and G. Veneziano, Pre-big-bang in string cosmology, Astropart. Phys. 1, 317 (1993).

 

• 1992

 

[110] M. Gasperini, J. Maharana and G. Veneziano,

Boosting away singularities from conformal string backgrounds,

Phys. Lett. B 296, 51 (1992).

 

[109] M. Gasperini and M. Giovannini,

Gravity waves from primordial dimensional reduction,

Class. Quantum Grav. 9, L137 (1992).

 

[108] M. Gasperini and M. Giovannini,

Inflation in scalar-tensor gravity with quadratic Gauss-Bonnet self-interactions,

Phys. Lett. B 287, 56 (1992).

 

[107] M. Gasperini and M. Giovannini,

Constraints on inflation at the Planck scale from the relic graviton spectrum,

Phys. Lett. B 282, 36 (1992).

 

[106] M. Gasperini and G. Veneziano, O(d,d)-covariant string cosmology, Phys. Lett. B 277, 256 (1992).

 

[105] M. Gasperini,

Causal horizons, accelerations and strings,

Gen. Rel. Grav. 24, 219 (1992).

 

• 1991

 

[104] M. Gasperini, J. Maharana and G. Veneziano,

From trivial to non-trivial conformal string backgrounds via O(d,d) transformations,

Phys. Lett. B 272, 277 (1991).

 

[103] M. Gasperini and G. Ummarino,

Adiabatic perturbations and minimal size of the de Sitter vacuum,

Phys. Lett. B 266, 275 (1991).

 

[102] G. Fiorentini, M. Gasperini and G. Scarpetta, Is the electron a “rigid” particle?,

Mod. Phys. Lett. A6, 2033 (1991).

 

[101] M. Gasperini,

Anomalous electromagnetic effects in the mixing of photons with a neutral vector field,

Phys. Lett. B 263, 267 (1991).

[100] M. Gasperini, N. Sanchez and G. Veneziano,

Self-sustained inflation and dimensional reduction from fundamental strings,

Nucl. Phys. B 364, 365 (1991).

 

[99] M. Gasperini,

A geometrical regularization procedure for the curvature of cosmological backgrounds, in Proc. of the Workshop on “Advances in theoretical physics” (Vietri, October 1990), ed. E. R. Caianiello (World Scientific, Singapore, 1991) p. 77.

 

[98] M. Gasperini,

Kinematic interpretation of string instability in a background gravitational field,

Phys. Lett. B 258, 70 (1991).

 

[97] M. Gasperini, N. Sanchez and G. Veneziano,

Highly unstable fundamental strings in inflationary cosmologies,

Int. J. Mod. Phys. A 6, 3853 (1991).

 

[96] E. R. Caianiello, M. Gasperini and G. Scarpetta, Inflation and singularity prevention in a model for extended-object-dominated cosmology,

Class. Quantum Grav. 8, 659 (1991).

 

• 1990

 

[95] M. Gasperini,

Bogoliubov transformations and negative-binomial distributions for particle creation by gravitational fields,

Prog. Theor. Phys. 84, 899 (1990).

 

[94] M. Gasperini,

Photon-graviphoton mixing in a dielectric medium,

Phys. Lett. B 237, 431 (1990).

 

[93] E. R. Caianiello, M. Gasperini and G. Scarpetta,

Phenomenological consequences of a geometrical model with limited proper acceleration,

Il Nuovo Cimento B 105, 259 (1990).

 

[92] E. R. Caianiello, A. Feoli, M. Gasperini and G. Scarpetta, Quantum corrections to the spacetime metric from geometric phase space quantization,

Int. J. Theor. Phys. 29, 131 (1990).

 

• 1989

 

[91] M. Gasperini and G. Scarpetta,

Some physical consequence of a maximal proper acceleration,

in Proc. of the “5th Marcel Grossmann Meeting” (Perth 1988), eds. D. G. Blair et al. (World Scientific, Singapore, 1989) p. 771.

 

[90] M. Gasperini,

Fifth force and the gravi-magnetic hypothesis,

Phys. Lett. A 140, 271 (1989).

 

[89] M. Gasperini,

Phenomenological consequences of a direct fifth force coupling to photons,

Phys. Rev. D 40, 3525 (1989).

 

[88] M. Gasperini,

The cosmological constant and the dimensionality of space-time,

Phys. Lett. B 224, 49 (1989).

 

[87] M. Gasperini,

Experimental constraints on a minimal and non-minimal violation of the equivalence principle in the oscillations of massive neutrinos, Phys. Rev. D 39, 3606 (1989).

 

[86] M. Gasperini,

Testing the equivalence principle with (g-2) experiments,

Mod. Phys. Lett. A 4, 1681 (1989)

 

[85] M. Gasperini,

Constraints on deviation from universality in the coupling to gravity of photons and high-energy cosmic rays,

Phys. Rev. Lett. 62, 1945 (1989).

 

[84] I. Bediaga, M. Gasperini, M. Novello and E. Predazzi, Geometric description of hadronization in curved spacetime, Mod. Phys. Lett. A 4, 169 (1989).

  

• 1988

  

[83] A. Bottino, V. De Alfaro and M. Gasperini, Effects of a possible fifth force on the direct neutron-antineutron oscillation experiments, Phys. Lett. B 215, 411 (1988).

 

[82] M. Gasperini,

Testing the principle of equivalence with neutrino oscillations,

Phys. Rev. D 38, 2635 (1988).

 

[81] M. Gasperini,

Gravitational contributions to n − n¯ oscillations in vacuum,

Phys. Rev. D 38, 1356 (1988).

 

[80] E. Caianiello, M. Gasperini, E. Predazzi and G. Scarpetta, On the confining aspects of a conformally flat geometry, Phys. Lett. A 132, 82 (1988).

[79] I. Bediaga, M. Gasperini and E. Predazzi, Thermal expansion and critical temperature

in a geometric representation of quark deconfinement,

Phys. Rev. D 38, 1626 (1988).

 

[78] M. Gasperini,

Lorentz non-invariance and the universality of free fall in quasi-riemannian gravity, in Gravitational measurements, fundamental metrology and constants

(Proc. of the Int. School on “Cosmology and Gravitation”, Erice, June 1987), ed. V. N. Melnikov (Kluwer Acad. Pub., Dordrecht, The Netherlands, 1988), Nato ASI Series, Vol. C230, p. 181.

 

[77] M. Gasperini,

Short-range interactions in gravitational theories with torsion and quadratic Lagrangian,

Phys. Lett. B 205, 517 (1988)

 

[76] M. Gasperini,

A thermal interpretation of the cosmological constant,

Class. Quantum Grav. 5, 521 (1988).

 

• 1987

  

[75] M. Gasperini,

Very early cosmology in the maximal acceleration hypothesis,

Astrophys. Space Sci. 138, 387 (1987).

 

[74] M. Gasperini,

Experimental tests on unified theories of the scalar-vector-tensor type,

Phys. Rev. D 36, 2318 (1987).

 

[73] M. Gasperini,

Geometric interpretation of a new hadronization model,

Phys. Lett. B 195, 453 (1987).

 

[72] M. Gasperini,

Axion production by electromagnetic fields,

Phys. Rev. Lett. 59, 396 (1987).

 

[71] M. Gasperini,

Decreasing vacuum temperature: a thermal approach to the cosmological constant problem,

Phys. Lett. B 194, 347 (1987).

 

[70] M. Gasperini,

Gravitational acceleration of relativistic particles at finite temperature,

Phys. Rev. D 36, 617 (1987).

 

[69] M. Gasperini and A. Tartaglia,

Lorentz non-invariance without tachyons in the Schwarzschild field,

Mod. Phys. Lett. A 2, 385 (1987).

[68] M. Gasperini,

Spin contributions to an inflationary phase in the very early universe, in Proc. of the 7th Italian conference on “General Relativity

and Gravitational Physics” (Rapallo, September 1986),

eds. U. Bruzzo et al. (World Scientific, Singapore, 1987) p. 89.

 

[67] M. Gasperini,

Singularity prevention and broken Lorentz symmetry,

Class. Quantum Grav. 4, 485 (1987).

 

• 1986

 

[66] M. Gasperini,

Broken Lorentz symmetry and the dimensions of spacetime,

Phys. Lett. B 180, 221 (1986).

 

[65] M. Gasperini,

On the gravitational interactions of ultra-relativistic particles,

Phys. Lett. B 177, 51 (1986).

 

[64] M. Gasperini,

Classical repulsive gravity and broken Lorentz symmetry,

Phys. Rev. D 34, 2260 (1986).

 

[63] M. Gasperini,

Spin-dominated inflation in the Enstein-Cartan theory,

Phys. Rev. Lett. 56, 2873 (1986).

 

[62] M. Gasperini,

Quasi-riemannian gravity and spontaneous breaking of the Lorentz gauge symmetry in more than four dimensions,

Phys. Rev. D 33, 3594 (1986).

 

[61] V. De Sabbata and M. Gasperini,

Gravitational waves and massive tensor particles in the f –g theory of gravity,

Gen. Rel. Grav. 18, 669 (1986).

 

[60] V. De Sabbata and M. Gasperini, Oscillations of gravitons,

in “Collected papers problems in Gravitation and Relativity Particle Theory”, ed. by K. P. Staninkovich (Moscow, 1986), p. 15 (in Russian).

 

[59] V. De Sabbata and M. Gasperini,

Testing the local SO(3,1) invariance of gravity at the planetary level, in Proc. of the “4th Marcel Grossmann Meeting” (Rome, 1985), ed by R. Ruffini (North-Holland, Amsterdam, The Netherland, 1986) p. 1709.

[58] M. Gasperini and A. Tartaglia,

Impenetrability of the Schwarzischild sphere in a Lorentz non- invariant theory of gravity, in Topological properties and and global structure of space-time

(Proc. of the Int. School on “Cosmology and Gravitation”, Erice, May 1985), ed. P. G. Bergmann (NATO ASI Series, Plenum, New York, 1986),

Vol. B 138, p. 77.

 

[57] V. De Sabbata and M. Gasperini, Gravitation without Lorentz invariance,

in Topological properties and and global structure of space-time

(Proc. of the Int. School on “Cosmology and Gravitation”, Erice, May 1985), ed. P. G. Bergmann (NATO ASI Series, Plenum, New York, 1986),

Vol. B 138, p. 231.

  

• 1985

  

[56] V. De Sabbata and M. Gasperini,

“Introduction to gravitation,

356 pages, ISBN-13: 987-9971500498

(World Scientific Pub. Co., Singapore, 1985).

 

[55] M. Gasperini,

Inflation and broken Lorentz symmetry in the very early universe,

Phys. Lett. B 163, 84 (1985).

 

[54] M. Gasperini,

Lie-isotopic gravity with matter: an effective theory of gravity for testing local Lorentz symmetry,

Had. J. 8, 52 (1985).

 

[53] M. Gasperini,

Minkowski compactification without fine tuning,

Prog. Theor. Phys. 74, 422 (1985).

 

[52] M. Gasperini,

Spontaneous compactification on a Ricci-flat four-dimensional background,

Il Nuovo Cimento B 88, 172 (1985).

 

[51] M. Gasperini,

Spontaneous compactification with antisymmetric tensor and scalar field,

Phys. Rev. D 31, 2708 (1985).

  

• 1984

 

[50] V. De Sabbata and M. Gasperini,

A remark on the possibility of an extension of Heisenberg’s uncertainty principle to the electric charge, in Proc of the Sir Arthur Eddington Centenary Symposium,

Vol. 1 - Relativistic Astrophysics and Cosmology (World Scientific, SIngapore, 1984), p. 224.

[49] M. Gasperini,

Constraints on unified theories from the experimental tests of the equivalence principle,

Gen. Rel. Grav. 16, 1031 (1984).

 

[48] M. Gasperini,

On a Lie-isotopic theory of gravity,

Il Nuovo Cimento A 83, 309 (1984).

 

[47] M. Gasperini,

From Lie-admissible algebra to non-symmetric gravity,

Had. J. 7, 234 (1984).

 

[46] M. Gasperini,

On the geometric structure of Lie-isotopic gravity

Had. J. 7, 650 (1984).

 

[45] M. Gasperini,

Gravitation and Lie-isotopic algebra

Had. J. 7, 97 (1984).

 

[44] M. Gasperini,

Strong gravity and Lorentz non-invariance,

Phys. Lett. B 141, 369 (1984).

 

[43] M. Gasperini,

On a Lie-admissible theory of gravity,

Il Nuovo Cimento B 81, 7 (1984).

 

[42] V. De Sabbata and M. Gasperini,

Five-dimensional projective unified theory and the principle of equivalence,

Phys. Rev. D 29, 171 (1984).

  

• 1983

 

[41] M. Gasperini,

Lie-isotopic lifting of gauge theories,

Hadronic J. 6, 1462 (1983).

 

[40] M. Gasperini,

Elements for a Lie-isotopic gauge theory

Had. J. 6, 935 (1983).

 

[39] V. De Sabbata and M. Gasperini, Hermitian gravity and supergravity,

in Proc. of the Third Marcel Grossman on General Relativity (Shangai, 1982), ed. H. Ning (North-Holland, Amsterdam, 1983), p. 1135.

 

[38] V. De Sabbata and M. Gasperini,

The angular momentum of the celestial bodies

and the fundamental dimensionless constants of Nature,

Lett. Nuovo Cimento 38, 93 (1983).

 

[37] V. De Sabbata and M. Gasperini,

A cosmological interpretation of two empirical astrophysical laws, in Proc. of the Einstein Found. Int., Vol. 1, 55 (1983).

 

[36] V. De Sabbata and M. Gasperini,

A prediction of the angular momentum over mass-squared ratio for the astronomical bodies,

Acta Cosmologica 12, 79 (1983).

 

[35] V. De Sabbata and M. Gasperini,

The anthropic principle and the actual size of the Universe,

Lett. Nuovo Cimento 37, 605 (1983).

 

[34] V. De Sabbata and M. Gasperini, Hermitian gravity and supergravity, Lett. Nuovo Cimento 36, 156 (1983).

 

[33] V. De Sabbata and M. Gasperini,

Hermitian gravity with spin and propagating torsion, in Unified field theories in more than four dimensions

(Proc. of the Int. School on “Cosmology and Gravitation”, Erice, May 1982), ed. E. Schmutzer (World Scientific, Singapore, 1983) p. 152.

  

• 1982

 

[32] V. De Sabbata and M. Gasperini,

On the possibility of speed higher than c inside hadronic matter,

Lett. Nuovo Cimento 34, 337 (1982).

 

[31] V. De Sabbata and M. Gasperini,

The primeval magnetic field, in The origin and evolution of galaxies,

Proc. of the Int. School on “Cosmology and Gravitation”, Erice, May 1981, (World Scientific, Singapore, 1982) p. 181.

 

[30] V. De Sabbata and M. Gasperini,

Neutron spin rotation induced by torsion in vacuum,

Lett. Nuovo Cimento 33, 363 (1982)

 

[293] V. De Sabbata and M. Gasperini,

The role of spin in a Hermitian theory of gravity,

Lett. Nuovo Cimento 33, 177 (1982).

A theory of gravity with two metrics and two torsion tensors,

Lett. Nuovo Cimento 32, 469 (1981)

 

[27] V. De Sabbata and M. Gasperini,

Neutrino oscillations in the presence of torsion,

Il Nuovo Cimento A 65, 479 (1981)

 

[26] V. De Sabbata and M. Gasperini,

On a possible connection between the spontaneous breaking of the

SU (2) × U (1) symmetry and the variability of c on a strong gravity background, in Proc. of the Einstein Centenary Symposium (1981), p. 371.

 

[25] V. De Sabbata and M. Gasperini, Spontaneous symmetry breaking

starting from the light velocity variability,

Lett. Nuovo Cimento 31, 323 (1981).

 

[24] V. De Sabbata and M. Gasperini, Spontaneous symmetry breaking in a de Sitter metric background,

Lett. Nuovo Cimento 31, 261 (1981).

 

[23] V. De Sabbata and M. Gasperini,

Torsion production by electromagnetic fields,

Lett. Nuovo Cimento 30, 363 (1981)

 

[22] V. De Sabbata and M. Gasperini,

Macroscopic consequences of a propagating torsion potential,

Lett. Nuovo Cimento 30, 503 (1981)

 

[21] V. De Sabbata and M. Gasperini,

A gauge invariant interaction between a charged spinor field and a propagating torsion field,

Lett. Nuovo Cimento 30, 193 (1981)

 

[20] V. De Sabbata and M. Gasperini,

Propagating torsion and electromagnetic gauge invariance,

Phys. Lett. A 83, 115 (1981)

 

[19] V. De Sabbata and M. Gasperini,

Gauge invariance, semi-minimal coupling and propagating torsion,

Phys. Rev. D 23, 2116 (1981)

Torsion and electromagnetic fields: a “semi-minimal” prescription, in Abstract of contributed papers for the discussion group,

Proc. of the 9th Int. Conf. on Gen. Rel. Grav., Vol. 3 (F. Schiller University, Jena, 1980), p. 644.

 

[17] V. De Sabbata and M. Gasperini,

Torsion contributions to the magnetic field of a spinning charge,

Lett. Nuovo Cimento 28, 234 (1980).

 

[16] V. De Sabbata and M. Gasperini,

A semi-minimal coupling principle for the electromagnetic field in a space with torsion,

Lett. Nuovo Cimento 28, 229 (1980).

 

[15] V. De Sabbata and M. Gasperini,

On the propagation of electromagnetic waves on a cosmological neutrino sea,

Lett. Nuovo Cimento 28, 181 (1980).

 

[14] V. De Sabbata and M. Gasperini, Electromagnetic fields in spaces with torsion, Nukleonika 25, 1373 (1980).

 

[13] V. De Sabbata and M. Gasperini, The magnetic field of the Earth,

Lett. Nuovo Cimento 27, 449 (1980).

 

[12] V. De Sabbata and M. Gasperini, Spin alignment in a neutron star, Lett. Nuovo Cimento 27, 289 (1980).

 

[11] V. De Sabbata and M. Gasperini,

A cosmological interpretation of the magnetic field of the celestial bodies,

Lett. Nuovo Cimento 27, 133 (1980).

 

[10] V. De Sabbata and M. Gasperini,

On the Maxwell equations in a Riemann-Cartan space,

Phys. Lett. A 77, 300 (1980).

 

[9] V. De Sabbata and M. Gasperini,

Torsion and strong gravity in the realm of elementary particles and cosmological physics, in Spin, Torsion, Rotation and Supergravity,

(Proc. of the Int. School on “Cosmology and Gravitation”, Erice, May 1979),

139. P. G. Bergmann (NATO ASI Series, Plenum, New York, 1980), Vol. B58, p. 139.

Strong gravity with torsion: some cosmological deduction,

Lett. Nuovo Cimento 25, 489 (1979).

 

[7] V. De Sabbata and M. Gasperini,

Strong gravity with torsion and the Cabibbo angle,

Gen. Rel. Grav. 10, 731 (1979).

 

[6] V. De Sabbata and M. Gasperini, Strong gravity and weak interactions, Gen. Rel. Grav. 10, 825 (1979).

 

[5] V. De Sabbata and M. Gasperini,

Non-linear electromagnetic effects induced in vacuum by the gravitational interaction,

Lett. Nuovo Cimento 24, 520 (1979).

 

[4] V. De Sabbata and M. Gasperini,

Strong gravity contributions to the electromagnetic field of an elementary particle,

Lett. Nuovo Cimento 24, 215 (1979).

  

• 1978

  

[3] V. De Sabbata and M. Gasperini,

External torsion and the electromagnetic force,

Lett. Nuovo Cimento 23, 657 (1978).

 

[2] V. De Sabbata and M. Gasperini,

Is weak interaction a Cartan force between the elementary particles?

Lett. Nuovo Cimento 21, 328 (1978).

 

[1] M. Gasperini,

Gravitation and the Einstein-Sciama force,

Lett. Nuovo Cimento 21, 285 (1978).

 

Maurizio Gasperini