Binary blazed reflection grating for UV/VIS/NIR/SWIR spectral range

Burmeister, Frank; Flügel-Paul, Thomas; Zeitner, Uwe D.; Lee, Mane‐Si Laure; Lehoucq, Gaëlle; Cholet, Julie; Loiseaux, Brigitte; Tetaz, Nicolas; Windpassinger, Roman; Taccola, Matteo

doi:10.1117/12.2535974

Cited by 5 publications

(3 citation statements)

References 10 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…They are well suited for narrow-band applications requiring high spectral dispersion [3,4,5]. On the contrary, there are saw-tooth profiled gratings or effective medium gratings which typically offer lower spectral dispersion, but achieve considerably larger bandwidths [6,7]. In what follows, we focus on the latter scenario, and we present a grating design which is similar to effective medium gratings (at least in topology), however, the fundamental physical working mechanism is different, and it is inherited from those of so-called Huygens metasurfaces [2].…”

Section: Grating Design and Performancementioning

confidence: 99%

Transmission Gratings relying on Huygens Metasurfaces for short-wave to long-wave infrared applications

Flügel-Paul,

Käsebier

2023

EPJ Web Conf.

View full text Add to dashboard Cite

In many spectroscopic applications, diffraction gratings are the pivotal optical component which is used to decompose white light into its spectrum. However, design and manufacturing of diffraction gratings for the infrared spectral domain operating in transmission bares its own challenges, i.e. a very limited choice of transparent materials. Here we present our effort on exploiting Huygens-metasurface structures for design and manufacturing of diffraction gratings intended for operation in the short-wave (around 2µm) up to the long-wave infrared region (>10µm). Silicon nano-pillars are the material system of choice since they exhibit the best compromise between optical performance and manufacturing feasibility. We present specific designs as well as measurement results of a demonstrator sample.

show abstract

Section: Grating Design and Performancementioning

confidence: 99%

Transmission Gratings relying on Huygens Metasurfaces for short-wave to long-wave infrared applications

Flügel-Paul,

Käsebier

2023

EPJ Web Conf.

View full text Add to dashboard Cite

show abstract

“…A third type of approach is based on blazed-binary gratings composed of subwavelength structures [7][8][9] and effective index dispersion engineering.…”

Section: Introductionmentioning

confidence: 99%

Wide band UV/Vis/NIR blazed-binary reflective gratings for spectro-imagers: two lithographic technologies investigation

Lee

Cholet

Delboulbé

et al. 2023

J. Eur. Opt. Society-Rapid Publ.

View full text Add to dashboard Cite

We report on subwavelength reflective gratings for hyperspectral applications operating in a very large spectral band (340 nm -1040 nm). Our study concerns a blazed-binary grating having a period of 30µm and composed of 2D subwavelength structures with size in between 120 nm and 350 nm. We demonstrate the manufacturing of the gratings on 3” wafers by two lithography technologies (e-beam and nanoimprint) followed by classical dry etching process. Optical measurements show that the subwavelength grating approach enables a broadband efficiency, polarization behaviour and wavefront quality improvement with respect to the requirements for the next generation of spectro-imagers for Earth observation missions. An outlook towards spherical substrate based on nanoimprint lithography is also reported with the results of mixed features replication (holes and pillars in the range of 160 nm to 330 nm) on a 540 mm concave which demonstrate uniformity and accuracy capabilities over 3” surface.

show abstract

“…A third type of approach is based on blazed-binary gratings composed of subwavelength structures [7,8] and effective index dispersion engineering. Recently, we reported on the realization of a subwavelength grating by e-beam lithography and etching [9].…”

Section: Introductionmentioning

confidence: 99%

Wide band UV/Vis/NIR blazed-binary reflective gratings: two lithographic techniques investigation

et al. 2021

Self Cite

View full text Add to dashboard Cite

We report on subwavelength reflective gratings for hyperspectral applications operating in the 340 nm-1040 nm spectral range. The blazed grating period is 30 μm and is composed of 2D subwavelength binary structures with sizes in-between 120 nm and 350 nm. We demonstrate the manufacturing of gratings on 3” wafers by two lithography technologies (e-beam or nanoimprint) followed by dry etching process. These subwavelength gratings enable broadband efficiency which is in average 15%-20% above the efficiency requirement for next generation of spectro-imagers for Earth observation missions and a wavefront error that is much smaller than the 100 nm requirement for space application.

show abstract

Binary blazed reflection grating for UV/VIS/NIR/SWIR spectral range

Cited by 5 publications

References 10 publications

Transmission Gratings relying on Huygens Metasurfaces for short-wave to long-wave infrared applications

Transmission Gratings relying on Huygens Metasurfaces for short-wave to long-wave infrared applications

Wide band UV/Vis/NIR blazed-binary reflective gratings for spectro-imagers: two lithographic technologies investigation

Wide band UV/Vis/NIR blazed-binary reflective gratings: two lithographic techniques investigation

Contact Info

Product

Resources

About