Conditions for entangled photon emission from (111)B site-controlled pyramidal quantum dots

G. Juska; E. Murray; V. Dimastrodonato; T. H. Chung; S. T. Moroni; A. Gocalinska; E. Pelucchi

doi:10.1063/1.4916705

Conditions for entangled photon emission from (111)B site-controlled pyramidal quantum dots

G. Juska
, E. Murray
, V. Dimastrodonato
, T. H. Chung
, S. T. Moroni
, A. Gocalinska
, E. Pelucchi

University College Cork

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

Abstract

A study of highly symmetric site-controlled pyramidal In_0.25Ga_0.75As quantum dots (QDs) is presented. It is discussed that polarization-entangled photons can be also obtained from pyramidal QDs of different designs from the one already reported in Juska et al. [Nat. Photonics 7, 527 (2013)]. Moreover, some of the limitations for a higher density of entangled photon emitters are addressed. Among these issues are (1) a remaining small fine-structure splitting and (2) an effective QD charging under non-resonant excitation conditions, which strongly reduce the number of useful biexciton-exciton recombination events. A possible solution of the charging problem is investigated exploiting a dual-wavelength excitation technique, which allows a gradual QD charge tuning from strongly negative to positive and, eventually, efficient detection of entangled photons from QDs, which would be otherwise ineffective under a single-wavelength (non-resonant) excitation.

Original language	English
Article number	134302
Journal	Journal of Applied Physics
Volume	117
Issue number	13
DOIs	https://doi.org/10.1063/1.4916705
Publication status	Published - 7 Apr 2015

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https://hdl.handle.net/10468/4714Licence: CC BY-NC-ND

Cite this

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title = "Conditions for entangled photon emission from (111)B site-controlled pyramidal quantum dots",

abstract = "A study of highly symmetric site-controlled pyramidal In0.25Ga0.75As quantum dots (QDs) is presented. It is discussed that polarization-entangled photons can be also obtained from pyramidal QDs of different designs from the one already reported in Juska et al. [Nat. Photonics 7, 527 (2013)]. Moreover, some of the limitations for a higher density of entangled photon emitters are addressed. Among these issues are (1) a remaining small fine-structure splitting and (2) an effective QD charging under non-resonant excitation conditions, which strongly reduce the number of useful biexciton-exciton recombination events. A possible solution of the charging problem is investigated exploiting a dual-wavelength excitation technique, which allows a gradual QD charge tuning from strongly negative to positive and, eventually, efficient detection of entangled photons from QDs, which would be otherwise ineffective under a single-wavelength (non-resonant) excitation.",

author = "G. Juska and E. Murray and V. Dimastrodonato and Chung, \{T. H.\} and Moroni, \{S. T.\} and A. Gocalinska and E. Pelucchi",

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T1 - Conditions for entangled photon emission from (111)B site-controlled pyramidal quantum dots

AU - Juska, G.

AU - Murray, E.

AU - Dimastrodonato, V.

AU - Chung, T. H.

AU - Moroni, S. T.

AU - Gocalinska, A.

AU - Pelucchi, E.

PY - 2015/4/7

Y1 - 2015/4/7

N2 - A study of highly symmetric site-controlled pyramidal In0.25Ga0.75As quantum dots (QDs) is presented. It is discussed that polarization-entangled photons can be also obtained from pyramidal QDs of different designs from the one already reported in Juska et al. [Nat. Photonics 7, 527 (2013)]. Moreover, some of the limitations for a higher density of entangled photon emitters are addressed. Among these issues are (1) a remaining small fine-structure splitting and (2) an effective QD charging under non-resonant excitation conditions, which strongly reduce the number of useful biexciton-exciton recombination events. A possible solution of the charging problem is investigated exploiting a dual-wavelength excitation technique, which allows a gradual QD charge tuning from strongly negative to positive and, eventually, efficient detection of entangled photons from QDs, which would be otherwise ineffective under a single-wavelength (non-resonant) excitation.

AB - A study of highly symmetric site-controlled pyramidal In0.25Ga0.75As quantum dots (QDs) is presented. It is discussed that polarization-entangled photons can be also obtained from pyramidal QDs of different designs from the one already reported in Juska et al. [Nat. Photonics 7, 527 (2013)]. Moreover, some of the limitations for a higher density of entangled photon emitters are addressed. Among these issues are (1) a remaining small fine-structure splitting and (2) an effective QD charging under non-resonant excitation conditions, which strongly reduce the number of useful biexciton-exciton recombination events. A possible solution of the charging problem is investigated exploiting a dual-wavelength excitation technique, which allows a gradual QD charge tuning from strongly negative to positive and, eventually, efficient detection of entangled photons from QDs, which would be otherwise ineffective under a single-wavelength (non-resonant) excitation.

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VL - 117

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ER -

Conditions for entangled photon emission from (111)B site-controlled pyramidal quantum dots

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