SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1973001420> ?p ?o ?g. }

Showing items 1 to 70 of 70 with 100 items per page.

W1973001420 abstract "Direct detection and characterization of a planet around a star by nulling interferometry, must be efficient in a large wavelength domain in order to detect simultaneously the infrared bio-tracers CO2, O3 and H2O. This condition requires that an achromatic phase shift of π be implemented, with an accuracy sufficient for achieving a deep nulling at all considered wavelengths. Several solutions have been presented. We present here a new concept for designing such an achromatic phase shifter. It is based on two cellular mirrors (alternatively, transparent plates can be used) where cells have thickness which are respectively odd and even multiples of a quarter of the central wavelength. Each cell introduces then a phase shift of (2k + 1)π or of 2kπ, on the fraction of the wave it reflects. Each mirror is introduced in the collimated beam issued from one or the other telescopes. Because of the odd/even distribution, a destructive interference is obviously produced on axis for the central wavelength when recombining the two beams. The trick to obtain a quasi-achromatisation is to distribute the thickness of the cells, so that the nulling is also efficient for a wavelength not too far from the central wavelength. We show that if the thicknesses are distributed according to the Pascal triangle, a fair quasi-achromatism is reached. This effect is the more efficient that the number of cells is large. For instance, with 256 × 256 cells, where phase shift range is between -6π and +6π one shows that the nulling reaches 10-6 on the wavelength range [0.7λ0, 1.3λ0] which corresponds roughly to the DARWIN specification. In a second step, we study the optimum way to distribute the cells in the plane of the pupil. The most important criterion is the isolation of the planet image from the residual image of the star. Several efficient configurations are presented. Finally we consider some practical aspects on a device belonging to the real world and on the bench we are developing. The major interest of this solution is that it allows a compact, simple and fully symmetric design, with essentially no ajustable sub-systems ; extension to multi-telescopes interferometers with phase shift other than π can also be envisioned." @default.
W1973001420 created "2016-06-24" @default.
W1973001420 creator A5033530989 @default.
W1973001420 creator A5060634645 @default.
W1973001420 creator A5060833952 @default.
W1973001420 creator A5077334819 @default.
W1973001420 creator A5082919613 @default.
W1973001420 creator A5085335307 @default.
W1973001420 date "2007-09-13" @default.
W1973001420 modified "2023-09-26" @default.
W1973001420 title "A new concept of achromatic phase shifter for nulling interferometry" @default.
W1973001420 cites W2018452031 @default.
W1973001420 cites W2076600390 @default.
W1973001420 cites W2085905336 @default.
W1973001420 cites W2157008533 @default.
W1973001420 doi "https://doi.org/10.1117/12.725855" @default.
W1973001420 hasPublicationYear "2007" @default.
W1973001420 type Work @default.
W1973001420 sameAs 1973001420 @default.
W1973001420 citedByCount "3" @default.
W1973001420 countsByYear W19730014202012 @default.
W1973001420 crossrefType "proceedings-article" @default.
W1973001420 hasAuthorship W1973001420A5033530989 @default.
W1973001420 hasAuthorship W1973001420A5060634645 @default.
W1973001420 hasAuthorship W1973001420A5060833952 @default.
W1973001420 hasAuthorship W1973001420A5077334819 @default.
W1973001420 hasAuthorship W1973001420A5082919613 @default.
W1973001420 hasAuthorship W1973001420A5085335307 @default.
W1973001420 hasConcept C103864889 @default.
W1973001420 hasConcept C120665830 @default.
W1973001420 hasConcept C121332964 @default.
W1973001420 hasConcept C121535716 @default.
W1973001420 hasConcept C166689943 @default.
W1973001420 hasConcept C23576306 @default.
W1973001420 hasConcept C34445779 @default.
W1973001420 hasConcept C44280652 @default.
W1973001420 hasConcept C520434653 @default.
W1973001420 hasConcept C62520636 @default.
W1973001420 hasConcept C6260449 @default.
W1973001420 hasConcept C90327742 @default.
W1973001420 hasConceptScore W1973001420C103864889 @default.
W1973001420 hasConceptScore W1973001420C120665830 @default.
W1973001420 hasConceptScore W1973001420C121332964 @default.
W1973001420 hasConceptScore W1973001420C121535716 @default.
W1973001420 hasConceptScore W1973001420C166689943 @default.
W1973001420 hasConceptScore W1973001420C23576306 @default.
W1973001420 hasConceptScore W1973001420C34445779 @default.
W1973001420 hasConceptScore W1973001420C44280652 @default.
W1973001420 hasConceptScore W1973001420C520434653 @default.
W1973001420 hasConceptScore W1973001420C62520636 @default.
W1973001420 hasConceptScore W1973001420C6260449 @default.
W1973001420 hasConceptScore W1973001420C90327742 @default.
W1973001420 hasLocation W19730014201 @default.
W1973001420 hasLocation W19730014202 @default.
W1973001420 hasOpenAccess W1973001420 @default.
W1973001420 hasPrimaryLocation W19730014201 @default.
W1973001420 hasRelatedWork W1989218810 @default.
W1973001420 hasRelatedWork W1995183947 @default.
W1973001420 hasRelatedWork W1997218355 @default.
W1973001420 hasRelatedWork W2032486702 @default.
W1973001420 hasRelatedWork W2062932146 @default.
W1973001420 hasRelatedWork W2073237616 @default.
W1973001420 hasRelatedWork W2093479232 @default.
W1973001420 hasRelatedWork W2094739768 @default.
W1973001420 hasRelatedWork W2384910052 @default.
W1973001420 hasRelatedWork W2769729038 @default.
W1973001420 isParatext "false" @default.
W1973001420 isRetracted "false" @default.
W1973001420 magId "1973001420" @default.
W1973001420 workType "article" @default.