Optical Bloch oscillations of an Airy beam in a photonic lattice with a linear transverse index gradient

Fajun Xiao; Baoran Li; Meirong Wang; Weiren Zhu; Peng Zhang; Sheng Liu; Malin Premaratne; Jianlin Zhao

doi:10.1364/OE.22.022763

Optical Bloch oscillations of an Airy beam in a photonic lattice with a linear transverse index gradient

Fajun Xiao, Baoran Li, Meirong Wang, Weiren Zhu, Peng Zhang, Sheng Liu, Malin Premaratne, Jianlin Zhao

School of Physical Science and Technology

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

We theoretically report the existence of optical Bloch oscillations (BO) of an Airy beam in a one-dimensional optically induced photonic lattice with a linear transverse index gradient. The Airy beam experiencing optical BO shows a more robust non-diffracting feature than its counterparts in free space or in a uniform photonic lattice. Interestingly, a periodical recurrence of Airy shape accompanied with constant alternation of its acceleration direction is also found during the BO. Furthermore, we demonstrate that the period and amplitude of BO of an Airy beam can be readily controlled over a wide range by varying the index gradient and/or the lattice period. Exploiting these features, we propose a scheme to rout an Airy beam to a predefined output channel without losing its characteristics by longitudinally modulating the transverse index gradient.

Original language	English
Pages (from-to)	22763-22770
Number of pages	8
Journal	Optics Express
Volume	22
Issue number	19
DOIs	https://doi.org/10.1364/OE.22.022763
State	Published - 22 Sep 2014

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title = "Optical Bloch oscillations of an Airy beam in a photonic lattice with a linear transverse index gradient",

abstract = "We theoretically report the existence of optical Bloch oscillations (BO) of an Airy beam in a one-dimensional optically induced photonic lattice with a linear transverse index gradient. The Airy beam experiencing optical BO shows a more robust non-diffracting feature than its counterparts in free space or in a uniform photonic lattice. Interestingly, a periodical recurrence of Airy shape accompanied with constant alternation of its acceleration direction is also found during the BO. Furthermore, we demonstrate that the period and amplitude of BO of an Airy beam can be readily controlled over a wide range by varying the index gradient and/or the lattice period. Exploiting these features, we propose a scheme to rout an Airy beam to a predefined output channel without losing its characteristics by longitudinally modulating the transverse index gradient.",

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T1 - Optical Bloch oscillations of an Airy beam in a photonic lattice with a linear transverse index gradient

AU - Xiao, Fajun

AU - Li, Baoran

AU - Wang, Meirong

AU - Zhu, Weiren

AU - Zhang, Peng

AU - Liu, Sheng

AU - Premaratne, Malin

AU - Zhao, Jianlin

PY - 2014/9/22

Y1 - 2014/9/22

N2 - We theoretically report the existence of optical Bloch oscillations (BO) of an Airy beam in a one-dimensional optically induced photonic lattice with a linear transverse index gradient. The Airy beam experiencing optical BO shows a more robust non-diffracting feature than its counterparts in free space or in a uniform photonic lattice. Interestingly, a periodical recurrence of Airy shape accompanied with constant alternation of its acceleration direction is also found during the BO. Furthermore, we demonstrate that the period and amplitude of BO of an Airy beam can be readily controlled over a wide range by varying the index gradient and/or the lattice period. Exploiting these features, we propose a scheme to rout an Airy beam to a predefined output channel without losing its characteristics by longitudinally modulating the transverse index gradient.

AB - We theoretically report the existence of optical Bloch oscillations (BO) of an Airy beam in a one-dimensional optically induced photonic lattice with a linear transverse index gradient. The Airy beam experiencing optical BO shows a more robust non-diffracting feature than its counterparts in free space or in a uniform photonic lattice. Interestingly, a periodical recurrence of Airy shape accompanied with constant alternation of its acceleration direction is also found during the BO. Furthermore, we demonstrate that the period and amplitude of BO of an Airy beam can be readily controlled over a wide range by varying the index gradient and/or the lattice period. Exploiting these features, we propose a scheme to rout an Airy beam to a predefined output channel without losing its characteristics by longitudinally modulating the transverse index gradient.

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Optical Bloch oscillations of an Airy beam in a photonic lattice with a linear transverse index gradient

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