Embedded Files
35. Biosensing with free space whispering gallery mode microlasers.
A. Capocefalo, S. Gentilini, L. Barolo, P. Baiocco, C. Conti and N. Ghofraniha.
Photonics Research 11, 732-741 (2023)
34. Thermally reconfigurable random lasers.
N. Ghofraniha.
33. Responsivity of Fractal Nanoparticle Assemblies to Multiple Stimuli: Structural Insight on the Modulation of the Optical Properties.
A. Capocefalo, T. Bizien, S. Sennato, N. Ghofraniha, F. Bordi and F. Brasili.
32. Droplet Lasers for Smart Photonic Labels.
A. Capocefalo, E. Quintiero, C. Conti, N. Ghofraniha and I. Viola.
ACS Appl. Mater. Interfaces 13, 51485 (2021)
31. Random laser spectral fingerprinting of lithographed microstructures.
A. Capocefalo, E. Quintiero, M. Bianco, A. Zizzari, S. Gentilini, C. Conti, V. Arima, I. Viola and N. Ghofraniha.
Adv. Mater. Technol. 2001037 (2021).
30. Heterogeneous Random Laser with Switching Activity Visualized by Replica Symmetry Breaking Maps.
L. M. Massaro, S. Gentilini, A. Portone, A. Camposeo, D. Pisignano, C. Conti and N. Ghofraniha.
29. Terahertz Radiation Transport in Photonic Glasses.
S. Gentilini, M. Missori, N. Ghofraniha and C. Conti.
Annalen der Physik-532, 2000005 (2020).
28. Diagnostic study of ancient Durium phonographic discs.
L. D'Aleo, A. Ciccola, N.Ghofraniha, I. Viola, S. Sennato, S. Magrini and M. Missori.
Microchemic. J. 104781 (2020).
27. Graphene Oxide photonics. Review article
N. Ghofraniha, C. Conti.
26. Optical spatial shock waves in nonlocal media.
G. Marcucci, D. Pierangeli, S. Gentilini, N. Ghofraniha, Z. Chen and C. Conti.
Adv. Phys. X 4-1662733 (2019).
25. Soret reverse saturable absorption of graphene oxide and its application in random lasers.
R. Prize, C. Conti and N. Ghofraniha.
J. Opt. Soc. Amer. B 36-19 (2019).
24. Biomimetic Random Lasers with Tunable Spatial and Temporal Coherence.
N. Ghofraniha, L. La Volpe, D. Van Opdenbosch, C. Zollfrank and C. Conti.
Advanced Optical Materials 4-1998 (2016).
23. Experimental evidence of replica symmetry breaking in random lasers.
N. Ghofraniha, I. Viola, F. Di Maria, G. Barbarella, G. Gigli, L. Leuzzi and C. Conti.
Nature Communications 6-6058 (2015).
22. Optical shock waves in silica aerogel.
S. Gentilini, F. Ghajeri, N. Ghofraniha, A. Di Falco and C. Conti.
21. Shock Waves in Disordered Media.
S. Gentilini, N. Ghofraniha, E. DelRe and C. Conti.
20. Transition from nonresonant to resonant random lasers by the geometrical confinement of disorder.
N. Ghofraniha, I. Viola, A. Zacheo, V. Arima, G. Gigli and C. Conti.
19. Random laser emission from a paper-based device.
I. Viola, N. Ghofraniha, A. Zacheo, V. Arima, G. Gigli and C. Conti.
J. Mater. Chem. C 1-8128 (2013).
18. Random laser from engineered nanostructures obtained by surface tension driven lithography.
N. Ghofraniha, I. Viola, F. Di Maria, G. Barbarella, G. Gigli and C. Conti.
Laser Photon. Rev. 7-432 (2013).
17. Time-resolved dynamics of granular matter by random laser emission.
V. Folli, N. Ghofraniha, A. Puglisi, L. Leuzzi and C. Conti.
16. Shock waves in thermal lensing.
S. Gentilini, N. Ghofraniha, E. DelRe and C. Conti.
Phys. Rev. A 87- 053811 (2013).
15. Nucleation and growth of micellar polycrystals under time-dependent volume fraction conditions.
A. Louhichi, E. Tamborini, N. Ghofraniha, F. Caton, D. Roux, J. Oberdisse, L. Cipelletti, and L. Ramos.
Phys. Rev. E 87-032306 (2013).
14. Shock waves in disordered media.
N. Ghofraniha, S. Gentilini, V. Folli, E. DelRe and C. Conti.
Phys. Rev. Lett. 109-243902 (2012).
13. Shock wave far-field in ordered and disordered nonlocal media.
S. Gentilini, N. Ghofraniha, V. Folli, E. DelRe and C. Conti.
12. Measurement of scaling laws for shock waves in thermal nonlocal media.
N. Ghofraniha, L. Amato Santamaria, V. Folli, E. DelRe and C. Conti.
11. Structure of Nanoparticles Embedded in Micellar Polycrystals.
E. Tamborini, N. Ghofraniha, J. Oberdisse, L. Cipelletti and L. Ramos.
10. Grain refinement and partitioning of impurities in the grain boundaries of a colloidal polycrystal.
N. Ghofraniha, E. Tamborini, J. Oberdisse, L. Cipelletti and L. Ramos.
Soft Matter 8-6214 (2012) FRONT COVER.
9. Relation among optical, thermal and thermo-optical properties and niobium concentra- tion in tellurite glasses.
J.C.S. Moraes, J.A. Nardi, S.M. Sidel, B.G. Mantovani, K. Yukimitu, V.C.S. Reynoso, L.F. Malmonge, N. Ghofraniha, G. Ruocco, L.H.C Andrade and S.M. Lima.
J. Non-Cryst. Solids 356- 2146 (2010).
8. Collective Thermal Diffusion of Silica Colloids Studied by Nonlinear Optics.
N. Ghofraniha, G. Ruocco and C. Conti.
Langmuir 25 (21) - 12495 (2009).
7. Assembly Kinetics in Binary Mixtures of Strongly Attractive Colloids.
N. Ghofraniha, P. Andreozzi, J. Russo, C. La Mesa and F. Sciortino.
J. Phys. Chem. B 113- 6775 (2009).
6. Time-Dependent Nonlinear Optical Susceptibility of an Out-of-Equilibrium Soft Material. N. Ghofraniha, C. Conti, G. Ruocco and F. Zamponi.
Phys. Rev. Lett. 102-038303 (2009).
5. Aging of the nonlinear optical susceptibility in doped colloidal suspensions.
N. Ghofraniha, C. Conti and G. Ruocco.
Phys. Rev. B 75- 224203 (2007).
4. Aging of the nonlinear optical susceptibility in soft matter. N. Ghofraniha, C. Conti, R. Di Leonardo, B. Ruzicka and G Ruocco.
J. Phys .: Condens. Matter 19- 205129 (2007).
3. Shocks in nonlocal media.
N. Ghofraniha, C. Conti, G. Ruocco and S. Trillo.
Phys. Rev. Lett. 99-043903 (2007).
2. Laser beam filamentation in fractal aggregates.
C. Conti, N. Ghofraniha, G. Ruocco and S. Trillo.
Phys. Rev. Lett. 97-123903 (2006).
1. Routes to colloidal gel formation.
F. Sciortino, S. V. Buldyrev, C. De Michele, G. Foffi, N. Ghofraniha, E. La Nave, A. J. Moreno, S. Mossa, I. Saika-Voivod, P. Tartaglia and E. Zaccarelli.
Comp. Phys. Comm. 169- 167 (2005).
BOOK CHAPTER:
Replica Symmetry Breaking in of Random Lasers: Experimental Measurement of the Overlap Distribution
C. Conti, N. Ghofraniha, L. Leuzzi, G. Ruocco
Spin Glass Theory and Far Beyond (2023)
Spin Glass Behavior of Random Lasers: Experiments
N. Ghofraniha and C. Conti
Lévy Statistics and Spin Glass Behavior in Random Lasers (2023)
Basic physics and recent developments of organic random lasers.
I. Viola, L. Leuzzi, C. Conti and N. Ghofraniha.
Organic Random Lasers: Fundamentals, Developments and Applications (2018).
FRONT COVER:
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