Samples of Ag+/Na+ ion-exchanged glass that have been subject to intense laser irradiation may develop novel optical properties, as a consequence of the formation of patterns of silver nanoparticles and other structures. Here, we report the observation of a laser-induced permanent transverse birefringence, with the optical axis forming a radial pattern, as revealed by the spin-to-orbital angular momentum conversion occurring in a probe light beam. The birefringence pattern can be modeled well as resulting from thermally-induced stresses arising in the silver-doped glass during laser exposure, although the actual mechanism leading to the permanent anisotropy is probably more complex
Laser-induced radial birefringence and spin-to-orbital optical angular momentum conversion isilver-doped glasses / J. M., Amjad; H. R., Khalesifard; Slussarenko, Sergei; Karimi, Ebrahim; Marrucci, Lorenzo; Santamato, Enrico. - In: APPLIED PHYSICS LETTERS. - ISSN 0003-6951. - STAMPA. - 99:(2011), pp. 011113-1-011113-3. [10.1063/1.3610474]
Laser-induced radial birefringence and spin-to-orbital optical angular momentum conversion isilver-doped glasses
SLUSSARENKO, SERGEI;KARIMI, ebrahim;MARRUCCI, LORENZO;SANTAMATO, ENRICO
2011
Abstract
Samples of Ag+/Na+ ion-exchanged glass that have been subject to intense laser irradiation may develop novel optical properties, as a consequence of the formation of patterns of silver nanoparticles and other structures. Here, we report the observation of a laser-induced permanent transverse birefringence, with the optical axis forming a radial pattern, as revealed by the spin-to-orbital angular momentum conversion occurring in a probe light beam. The birefringence pattern can be modeled well as resulting from thermally-induced stresses arising in the silver-doped glass during laser exposure, although the actual mechanism leading to the permanent anisotropy is probably more complexI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
