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WP 1 Materials for Information and Communications Technology : Overview - ESR 1, 2, 3 & 4
Lead beneficiary: ROME Collaborating Partners: UMR, Tyndall-UCC, NOTT, SHEFF, UCA, SGENIA, ULANC NOTT Laser writing experiments SHEFF p-i-n structures and lithography processing time- and cross-correlation measurements UCA SEM and TEM for post-treatment strain-field evaluation and structural characterization SGENIA Device evaluation and dissemination of findings ULANC Materials analysis ESR 1 – TYNDALL-UCC Modelling of dilute N semiconductors (hydrogenated and untreated) ESR 2 - ROME Laser writing of nanoscale-LEDs based on dilute nitrides ESR 3 - UMR Novel dilute-nitride (GaIn)(Nas)-based emitters (epitaxially grown by MOVPE) ESR 4 - ROME Hydrogenation of dilute nitrides for single photon emitters in photonic crystals ESR- Early stage researcher UMR -Marburg UCA-Cadiz
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WP 1 MIR LEDs: ESR 1 Objectives:
Modelling of hydrogenated and dilute N semiconductors Supervisor: Prof. Eoin O’Reilly; Collaborating Partners: ROME, UMR, ULANC, SHEFF, NOTT Objectives: To provide relevant band structure information to support the design, development and analysis of dilute nitride metamorphic nanostructures ESR: Reza Arkani MSc in Photonics Shahid Beheshti University, Tehran, Iran Awaiting work permit and visa (likely start: Oct – Nov)
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Using tight-binding and k.p models to:
E E E3 H H H3 Using tight-binding and k.p models to: Support design and analysis of single photon sources at telecom wavelengths (Rome and Marburg) Optimise electronic and optical properties of Ga(SbN) quantum dots (Lancaster) Investigate type-II In(AsSbN)/InAs/Al(AsSb) structures for mid-IR LEDs
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WP 1 LEDs at telecom wavelength: ESR 2, Karyanand M.S. SHARMA
Laser writing of nanoscale-LED based on dilute nitrides Supervisor: Prof. A. Polimeni; Collaborating Partners: NOTT, UMR, ULANC, SHEFF, UCA Awaiting visa (likely start: Nov) Route for creating nano-LEDs and ordered array of nano-LEDs at telecom wavelengths - (InGa)(AsN)/GaAs QWs emitting at 1.31 and 1.55 mm - Laser writing routine - Electrically-driven single-photon emission type I or II MQWs or QDs - Characterize material TEM, AFM, PL, EL - Device processing - Device testing
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WP 1 MOVPE dilute nitrides: ESR 3, Shalini Gupta
Novel dilute-nitride (GaIn)(Nas)-based emitters epitaxially grown by MOVPE Supervisor: Prof. K. Volz; Collaborating Partners: ROME, SHEHH, NOTT, Tyndall-UCC, UCA, and SGENIA Quantitative structural characterization of various dilute nitride alloys (grown in Marburg & Lancaster): (GaIn)(NAs) QWs, Ga(NAsP) QWs, In(NAsSb) QDs, InSb QDs in Ga(NAs) Various STEM techniques: Aberration-corrected high angle annular dark field imaging Aberration-corrected high resolution imaging & strain state analysis Image simulation using different codes MOVPE growth of (GaIn)(NAs) QW samples
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Example: Quantitative composition and homogeneity evaluation of Ga(NAsP) Scattered intensity for dilute nitrides: Characteristic behaviour Challenge: transfer to 3-dimensional structures (QDs)
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WP 1 Integration of single-photon sources in PhC: ESR 4, Mike S. YOUNIS
Hydrogenation of dilute nitrides for single photon emitters in photonic crystals Supervisor: Prof. A. Polimeni; Collaborating Partners: Tyndall-UCC, NOTT, ULANC, SHEFF, UCA, UMR, and SGENIA Awaiting visa (likely start: Nov) - Single-photon sources at 1.31 and 1.55 mm - Deterministic positioning in PhC cavities - (InGa)(AsN)/GaAs QWs emitting at 1.31 and 1.55 mm - Hydrogenation routine - Highly polarized 1D emitters into PhC cavities - Characterize material TEM, AFM, PL, EL testing
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WP 1 Integration of single-photon sources in PhC: ESR 4
Hydrogenation of dilute nitrides for single photon emitters in photonic crystals Supervisor: Prof. A. Polimeni; Collaborating Partners: Tyndall-UCC, NOTT, ULANC, SHEFF, UCA, UMR, and SGENIA Low resolution with Ti mask Improved electron-beam lithography processing by replacing Ti with a HSQ (hydrogen silsesquioxane, [HSiO3/2]n , n=8) resist HSQ Ti
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WP 1 Integration of single-photon sources in PhC: ESR 4
Hydrogenation of dilute nitrides for single photon emitters in photonic crystals Supervisor: Prof. A. Polimeni; Collaborating Partners: Tyndall-UCC, NOTT, ULANC, SHEFF, UCA, UMR, and SGENIA Improved electron-beam lithography processing by replacing Ti with HSQ resist and using Ga(AsN) epilayers (300 nm) instead of QWs (6 nm)
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WP 1 Integration of single-photon sources in PhC: ESR 4
Hydrogenation of dilute nitrides for single photon emitters in photonic crystals Supervisor: Prof. A. Polimeni; Collaborating Partners: Tyndall-UCC, NOTT, ULANC, SHEFF, UCA, UMR, and SGENIA Improved electron-beam lithography processing by replacing Ti with HSQ resist Exciton and biexciton detected Random emission given by Poisson function m=1, exciton m=2, biexciton
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WP 1 Integration of single-photon sources in PhC: ESR 4
Hydrogenation of dilute nitrides for single photon emitters in photonic crystals Supervisor: Prof. A. Polimeni; Collaborating Partners: Tyndall-UCC, NOTT, ULANC, SHEFF, UCA, UMR, and SGENIA Highly polarized wires suitable for optimal coupling with PCh cavities
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WP 1 Integration of single-photon sources in PhC: ESR 4
Hydrogenation of dilute nitrides for single photon emitters in photonic crystals Supervisor: Prof. A. Polimeni; Collaborating Partners: Tyndall-UCC, NOTT, ULANC, SHEFF, UCA, UMR, and SGENIA Highly polarized wires suitable for optimal coupling with PCh cavities M. Felici et al., Phys. Rev. Appl. 2, (2014)
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