PIAA-related publications

Home


CV
Publications
Research
Coronagraphy
PIAA coronagraphy
PIAA syst architecture
PIAACMC
PIAA optics design
PIAA publications
Subaru PIAA prototype
Projects
Software
Telescope Making
Astrophotography
Robotic DSLR imaging system
Astronomical Optics course
Site map
Show content only (no menu, header)

PIAA-related publications

"Phase-induced amplitude apodization of telescope pupils for extrasolar terrestrial planet imaging"
Guyon, O. A&A, v.404, p.379-387 (2003)
  • Overall description of PIAA concept
  • Differential equation to solve for PIAA optics shape (on-axis only)
  • Quantitative analysis of off-axis PSF degradation
  • Proposed use of inverse PIAA

"Two-Mirror Apodization for High-Contrast Imaging"
Traub, Wesley A.; Vanderbei, Robert J. ApJ, 599, 695 (2003)
  • Detailed 1-D mathematical description of PIAA optics shapes
  • Detailed 1-D analysis of off-axis PIAA PSF
  • Differential equation for PIAA optics shape

"Exoplanet Imaging with a Phase-induced Amplitude Apodization Coronagraph. I. Principle"
Guyon, Olivier; Pluzhnik, Eugene A.; Galicher, Raphael; Martinache, Frantz; Ridgway, Stephen T.; Woodruff, Robert A. ApJ, 622, 744 (2005)
  • Description of mapping effects on imaging performance
  • Numerical simulations of PIAA off-axis imaging performance
  • Numerical raytrace simulations of PIAA + inverse PIAA system

"Pupil Mapping in Two Dimensions for High-Contrast Imaging"
Vanderbei, Robert J.; Traub, Wesley A. ApJ, 626, 1079 (2005)
  • Detailed 2D mathematical description of PIAA system
  • Mathematical proof for correction by inverse PIAA optics

"Laboratory Demonstration and Numerical Simulations of the Phase-Induced Amplitude Apodization"
Galicher, Raphael; Guyon, Olivier; Otsubo, Masashi; Suto, Hiroshi; Ridgway, Stephen PASP, 117, 411 (2005)
  • Lab demonstration of PIAA remapping with acrylic optics
  • First lab demonstration of off-axis PIAA imaging behavior

"Exoplanet Imaging with a Phase-induced Amplitude Apodization Coronograph. II. Performance"
Martinache, Frantz; Guyon, Olivier; Pluzhnik, Eugene A.; Galicher, Raphael; Ridgway, Stephen T. ApJ, 639, 1129 (2006)
  • Model of PIAA observation program for Earth-like planets

"Diffraction Analysis of Two-dimensional Pupil Mapping for High-Contrast Imaging"
Vanderbei, Robert J. ApJ, 636, 528 (2006)
  • First chromatic diffraction analysis of PIAA system
  • Identifies chromatic propagation problem in "pure" PIAA systems

"Exoplanet Imaging with a Phase-induced Amplitude Apodization Coronagraph. III. Diffraction Effects and Coronagraph Design"
Pluzhnik, Eugene A.; Guyon, Olivier; Ridgway, Stephen T.; Martinache, Frantz; Woodruff, Robert A.; Blain, Celia; Galicher, Raphael ApJ, 644, 1246 (2006)
  • Proposes hybrid system where PIAA optics perform most of the apodization and conventional apodizer
  • Shows that hybrid PIAA makes PIAA optics significantly easier to manufacture
  • Hybrid PIAA system also offers solution to chromatic propagation effects identified in Vanderbei 2006 paper

"Theoretical Limits on Extrasolar Terrestrial Planet Detection with Coronagraphs"
Guyon, O.; Pluzhnik, E. A.; Kuchner, M. J.; Collins, B.; Ridgway, S. T. ApJS, 167, 81 (2006)
  • Identifies fundamental limits to coronagraphy
  • Shows PIAA performance approaches this limit
  • Shows importance of stellar angular diameter on coronagraph performance
  • Performance estimation for exoplanet imaging using image-based model

"Diffraction-based Sensitivity Analysis of Apodized Pupil-mapping Systems" Belikov, Ruslan; Kasdin, N. Jeremy; Vanderbei, Robert J.
ApJ, 652, 833 (2006)
  • Proposes mathematical tools for PIAA performance computation
  • Quantifies sensitivity of PIAA system to low-order aberrations
"Phase-Induced Amplitude Apodization on Centrally Obscured Pupils: Design and First Laboratory Demonstration for the Subaru Telescope Pupil" Julien Lozi, Frantz Martinache, Olivier Guyon
PASP, 121, 1232 (2009)
  • Laboratory demonstration of a refractive PIAA system which removes the telescope central obstruction
  • Laboratory demonstration of the inverse-PIAA technique to recover a wide field of view
Page content last updated: 27/06/2023 06:35:52 HST
html file generated 27/06/2023 06:34:37 HST