Journals Articles Conferences News About CLP
Submit a paper Email Alert
Search
Search
Articles
Journals
News
Advanced Search
Top Searches
2D MaterialsTransformation opticsQuantum PhotonicsSmall lasersSemiconductor UV PhotonicsSupersymmetric microring laser arrays

Chinese Optics Letters, Volume. 14, Issue 11, 111601(2016)

Temperature-dependent optical response of phase-only nematic liquid crystal on silicon devices

Zichen Zhang1, Huan Xu2, Haining Yang2, Zheng You3, and D. P. Chu2、*
Author Affiliations
  • 1Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China
  • 2Electrical Engineering Division, Department of Engineering, University of Cambridge, 9JJ Thomson Ave, Cambridge CB3 0FA, UK
  • 3State Key Laboratory of Precision Measurement Technology and Instruments, Collaborative Innovation Center for Micro/Nano Fabrication, Device and System; Department of Precision Instrument, Tsinghua University, Beijing 100029, China
    • show less
    Full TextGet PDF
    Figures&Tables (6)
    Equations (8)
    References (30)
    Cited By (9)
    Tools
    Paper Information
    Topics
    Figures & Tables(6)
    Temperature effect on the spatial distribution of the diffracted optical intensity at the far-field replay plane, where (a) is recorded at a constant working temperature, while (b) has a 1% phase error caused by temperature variations.

    Fig. 1. Temperature effect on the spatial distribution of the diffracted optical intensity at the far-field replay plane, where (a) is recorded at a constant working temperature, while (b) has a 1% phase error caused by temperature variations.

    Download full size
    View in Article
    Optical setup for the temperature effect of phase-only nematic LCOS device. ND: neutral density filter (adjustment of diffracted intensity).

    Fig. 2. Optical setup for the temperature effect of phase-only nematic LCOS device. ND: neutral density filter (adjustment of diffracted intensity).

    Download full size
    View in Article
    Optical performance of the nematic LC BLO37 in the phase-only LCOS device in use when the working temperature varies from 15°C to 55°C. (a) Birefringence versus temperature for different wavelengths. (b) Phase modulation depth versus applied voltages with an empirical fitting using Eq. (2) at the wavelength of 633 nm.

    Fig. 3. Optical performance of the nematic LC BLO37 in the phase-only LCOS device in use when the working temperature varies from 15°C to 55°C. (a) Birefringence versus temperature for different wavelengths. (b) Phase modulation depth versus applied voltages with an empirical fitting using Eq. (2) at the wavelength of 633 nm.

    Download full size
    View in Article
    Temperature-dependent dielectric (a) permittivity and (b) anisotropy for BLO37.

    Fig. 4. Temperature-dependent dielectric (a) permittivity and (b) anisotropy for BLO37.

    Download full size
    View in Article
    Threshold voltage of the BLO37 layer as a function of temperature.

    Fig. 5. Threshold voltage of the BLO37 layer as a function of temperature.

    Download full size
    View in Article
    Response times: (a) rising time and (b) decay time in the phase-only LCOS device with BLO37 as a function of temperature.

    Fig. 6. Response times: (a) rising time and (b) decay time in the phase-only LCOS device with BLO37 as a function of temperature.

    Download full size
    View in Article
    Tools

    Get Citation

    Copy Citation Text

    Zichen Zhang, Huan Xu, Haining Yang, Zheng You, D. P. Chu, "Temperature-dependent optical response of phase-only nematic liquid crystal on silicon devices," Chin. Opt. Lett. 14, 111601 (2016)

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Set citation alerts for article
    Save article for my favorites
    Paper Information

    Category: Materials

    Received: Jun. 12, 2016

    Accepted: Sep. 23, 2016

    Published Online: Aug. 2, 2018

    The Author Email: D. P. Chu (dpc31@cam.ac.uk)

    DOI:10.3788/COL201614.111601

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology