CosmoNanoscience Unit

Principal Investigator

Postdocs

PhD students

Bachelor students

Alumni

Postdocs

PhD students

Master students

  1. Arend Moerman (2022)
    • Evaluation and characterization of the DESHIMA optics chain
  2. Sietse de Boer (2022)
    • Compact MKIDs: miniaturization of microwave kinetic inductance detectors
  3. Stefanie Brackenhoff (2021)
    • SPLITTER: A data model and algorithm for detecting spectral lines and continuum emission of high-redshift galaxies using DESHIMA 2.0
  4. Matthijs Gouwerok (2021)
    • A Gas Emission Setup to Evaluate Wideband Sub-mm Spectrometers
  5. Bruno Buijtendorp (2019)
    • Deposited Dielectrics with Low Cryogenic Microwave Loss and Their Room Temperature Properties
  6. Sjoerd Bosma (2017)
    • Quasi-optical system for the DESHIMA spectrometer
  7. Boy Bos (2016)
    • Reactive Sputter Deposition of Superconducting NbTiN Thin Films
  8. Werner Daalman (2014)
    • Noise and loss in superconducting resonators
  9. Tom Bakx (2014)
    • Simulated performance of ultra-wideband spectrometers in detecting distant sub-millimetre galaxies
  10. Cristina Sfiligoj (2013)
    • Superconducting NbTiN Microstrip Line Resonators with SiNx as Deposited Dielectric
  11. Bastian Knoors (2012)
    • Superconducting Microstrip Lines for On-Chip Spectrometry
  12. Reinier Janssen (2010)
    • Submicron Kinetic Inductance Detectors for SAFARI Improving MKID sensitivity through width reduction

Bachelor students (BEP)

  1. Emilio Amaldi (2024)
    • Predicting DESHIMA 2.0 observations of the thermal Sunyaev-Zel'dovich effect
  2. Matthijs Roos (2023)
    • Pre-Flight Simulation of DESHIMA 2.0: Observation of a High-Redshift Galaxy with the Current DESHIMA 2.0 Instrument on the ASTE Telescope
  3. Liam Ligthart (2022)
    • Analysing the Performance of SPLITTER A Noise Removal Algorithm for DESHIMA 2.0
  4. Joris Tiebosch (2022)
    • Photon-bunching in ground-based submillimeter-wave astronomy
  5. Anne-Kee Doing (2021)
    • Analysing a TiEMPO simulation of an observation of the dusty starburst galaxy HFLS3 with DESHIMA 2.0
  6. Tamira Lopez (2021)
    • Photon Statistics in Millimeter-Submillimeter Wave Astronomy
  7. Esmee Huijten (2020)
    • TiEMPO: Time-Dependent End-to-End Model for Post-process Optimization of the DESHIMA Spectrometer
  8. Yannick Roelvink (2020)
    • Simulation of a High-Redshift Line-Emitting Galaxy Detection with DESHIMA using TiEMPO
  9. Yashoda Sukul (2019)
    • Principal component analysis on atmospheric noise measured with an integrated superconducting spectrometer
  10. Edouard Schneiders (2017)
    • Simulated Performance of Ultra-Wideband Spectrometers in Redshift Measurement of Distant Sub-Millimetre Galaxies
  11. Elmore Vaal (2016)
    • Validity of analytical Microwave Kinetic Inductance Detector Responsivity Expressions
  12. Pieter Gimbel (2016)
    • Understanding the plasma-target interaction during reactive sputtering of superconducting NbTiN films with Tc > 15 K
  13. Rijk Hogenbirk (2016)
    • Design of a feasible superconducting on-chip Mach-Zehnder spectrometer using slow-wave coplanar waveguides
  14. Guus de Koning (2015)
    • Prototyping a Superconducting On-chip Cascaded Mach-Zehnder Spectrometer for Submillimeter Wave Astronomy
  15. Menno Herbrink (2015)
    • Modelling a virtual photon stream from a black body source
  16. Thijs van der Plas (2015)
    • Towards a Feasible Prototype of a Superconducting On-chip Cascaded Mach- Zehnder Spectrometer for Sub-millimeter Wave Astronomy
  17. Tammo Schwietert (2015)
    • Design of a Superconducting On-chip Cascaded Mach-Zehnder Spectrometer for Millimeter-Submillimeter Astronomy
  18. Emiel Verment (2015)
    • Simulation of Radiation Losses for Coplanar Waveguides using Sonnet
  19. Sarwan Peiter (2014)
    • Towards Mapping the Large Scale Structure: Simulating the Detection of Clusters with a Low Resolution Spectrometer