An integrated erbium-based light emitting diode has been realized in a waveguide configuration allowing 1.54 mu m light signal routing in silicon photonic circuits. This injection device is based on an asymmetric horizontal slot waveguide where the active slot material is Er3+ in SiO2 or Er3+ in Si-rich oxide. The active horizontal slot waveguide allows optical confinement, guiding and lateral extraction of the light for on-chip distribution. Light is then coupled through a taper section to a passive Si waveguide terminated by a grating which extracts (or inserts) the light signal for measuring purposes. We measured an optical power density in the range of tens of mu W/cm(2) which follows a super-linear dependence on injected current density. When the device is biased at high current density, upon a voltage pulse (pump signal), free-carrier and space charge absorption losses become large, attenuating a probe signal by more than 60 dB/cm and thus behaving conceptually as an electro-optical modulator. The integrated device reported here is the first example, still to be optimized, of a fundamental block to realize an integrated silicon photonic circuit with monolithic integration of the light emitter.
Er-doped light emitting slot waveguides monolithically integrated in a silicon photonic chip / J. M., Ramirez; F. F., Lupi; Y., Berencen; Anopchenko, Oleksiy; J. P., Colonna; O., Jambois; J. M., Fedeli; L., Pavesi; N., Prtljaga; P., Rivallin; A., Tengattini; D., Navarro Urrios; B., Garrido. - In: NANOTECHNOLOGY. - ISSN 0957-4484. - STAMPA. - 24:(2013), p. 115202. [10.1088/0957-4484/24/11/115202]
Er-doped light emitting slot waveguides monolithically integrated in a silicon photonic chip
ANOPCHENKO, OLEKSIY;
2013
Abstract
An integrated erbium-based light emitting diode has been realized in a waveguide configuration allowing 1.54 mu m light signal routing in silicon photonic circuits. This injection device is based on an asymmetric horizontal slot waveguide where the active slot material is Er3+ in SiO2 or Er3+ in Si-rich oxide. The active horizontal slot waveguide allows optical confinement, guiding and lateral extraction of the light for on-chip distribution. Light is then coupled through a taper section to a passive Si waveguide terminated by a grating which extracts (or inserts) the light signal for measuring purposes. We measured an optical power density in the range of tens of mu W/cm(2) which follows a super-linear dependence on injected current density. When the device is biased at high current density, upon a voltage pulse (pump signal), free-carrier and space charge absorption losses become large, attenuating a probe signal by more than 60 dB/cm and thus behaving conceptually as an electro-optical modulator. The integrated device reported here is the first example, still to be optimized, of a fundamental block to realize an integrated silicon photonic circuit with monolithic integration of the light emitter.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
