Beyond current modulation: pump ellipticity-driven GHz polarized pulse generation in a solitary dual state QD spin-VCSEL

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Publicado no:	JPhys Photonics vol. 7, no. 4 (Oct 2025), p. 045007
Autor principal:	Georgiou, Panagiotis
Outros Autores:	Tselios, Christos, Alexandropoulos, Dimitris
Publicado em:	IOP Publishing
Assuntos:	Lasing Injection current Ellipticity Vertical polarization Optical pulses Current modulation High speed Pulse repetition rate Pulse modulation Vertical cavity surface emission lasers Photonics Dynamical systems Quantum dots Nonlinear dynamics Semiconductor lasers
Acesso em linha:	Citation/Abstract Full Text - PDF
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022			\|a 2515-7647
024	7		\|a 10.1088/2515-7647/adeccf \|2 doi
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100	1		\|a Georgiou, Panagiotis \|u Department of Materials Science, School of Natural Sciences, University of Patras , University Campus, Rion, Achaia GR 265 04, Greece
245	1		\|a Beyond current modulation: pump ellipticity-driven GHz polarized pulse generation in a solitary dual state QD spin-VCSEL
260			\|b IOP Publishing \|c Oct 2025
513			\|a Journal Article
520	3		\|a Spin-polarized vertical-cavity surface-emitting lasers (spin-VCSELs) have emerged as promising candidates for next-generation high-speed photonic systems due to their unique polarization dynamics. Here, we numerically simulate the generation of high-repetition-rate polarized optical pulses in a solitary dual-state quantum-dot (QD) spin-VCSEL by applying return to zero pulse modulation of the pump ellipticity (P). Unlike conventional modulation schemes relying on current variation or optical injection, our approach exploits the inherent dependence of the lasing threshold on P. By maintaining a steady injection current and dynamically switching P between different ellipticities, we induce a controlled transition between the non-lasing and lasing states, effectively generating optical pulses with controlled polarization. This mechanism enables pulse repetition rates reaching up to 15 GHz, paving the way for novel ultrafast modulation schemes in spintronic photonic devices. Our findings open new perspectives for energy-efficient, semiconductor lasers-based, high-speed optical communication and neuromorphic photonic processing by taking advantage of spin-dependent nonlinear dynamics in VCSELs.
653			\|a Lasing
653			\|a Injection current
653			\|a Ellipticity
653			\|a Vertical polarization
653			\|a Optical pulses
653			\|a Current modulation
653			\|a High speed
653			\|a Pulse repetition rate
653			\|a Pulse modulation
653			\|a Vertical cavity surface emission lasers
653			\|a Photonics
653			\|a Dynamical systems
653			\|a Quantum dots
653			\|a Nonlinear dynamics
653			\|a Semiconductor lasers
700	1		\|a Tselios, Christos \|u Department of Electrical and Computer Engineering, University of Peloponnese , Patra, Achaia GR 22100, Greece
700	1		\|a Alexandropoulos, Dimitris \|u Department of Materials Science, School of Natural Sciences, University of Patras , University Campus, Rion, Achaia GR 265 04, Greece
773	0		\|t JPhys Photonics \|g vol. 7, no. 4 (Oct 2025), p. 045007
786	0		\|d ProQuest \|t Science Database
856	4	1	\|3 Citation/Abstract \|u https://www.proquest.com/docview/3246140445/abstract/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch
856	4	0	\|3 Full Text - PDF \|u https://www.proquest.com/docview/3246140445/fulltextPDF/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch