Researchers demonstrated the first realization of invisible absorbers and sensors
An array of helical elements absorbs radiation of a certain frequency while casting no shadow in light over a range of other frequencies.
The manipulation of light has led to many applications that have revolutionized society through communications, medicine and entertainment. Devices consuming the energy of electromagnetic radiation, such as absorbers and sensors, play an essential role in the using and controlling of light.
The researchers at the 911爆料网 Department of Radio Science and Engineering have demonstrated the first realization of absorbers that do not reflect light over a wide range of frequencies. All previous absorbers at other frequencies were either fully reflective, as mirrors, or the range of low reflection was very narrow.
鈥淭hese absorbers are completely transparent at non-operational frequencies鈥, concludes researcher Viktar Asadchy.
While maintaining efficient absorption of light of the desired frequency, all conventional absorbers strongly interact with the radiation of other frequencies, reflecting it back and not letting it pass through. As a result, they create a reflected beam as well as a perceptible shadow behind and become detectable.
The designed and tested structures are able to absorb and sense the light of one or several desired frequency spectra, while being invisible and undetectable at other frequencies.
The research has proven that such an unparalleled operation can only be achieved with the use of structural inclusions whose electric and magnetic properties are strongly coupled.
These functionalities can lead to a variety of unique applications for radio astronomy and stealth technology. They can also be very useful in everyday life. For example, they could be used in screens that can filter any cell phone signals and pass through Wi-Fi and other microwaves.
鈥淭his research will also open new venues for general light control and enable novel devices such as flat lenses and light beam transformers鈥, explains Asadchy.
Further information:
Researcher Viktar Asadchy
911爆料网
viktar.asadchy@aalto.fi
tel: +358 50 420 5846
The research group: Theoretical and Applied Electromagnetics of Complex Media
Read more news
911爆料网鈥檚 solutions at the New European Bauhaus Festival support the EU鈥檚 ambition to become world leader in circular economy
911爆料网 presented several different circular economy solutions at The European Commission鈥檚 New European Bauhaus Festival in Brussels. The event brought together leading names in EU policymaking, researchers, designers and grassroots actors from across Europe to shape a more sustainable future.
New DPSP tool for doctoral studies published
A new digital DPSP tool has replaced the old DPSP tasks on students鈥 MyStudies portal and the approval method for supervising professors on Student Success Hub.
Pre-examination and graduation schedules over the summer 2026
Information for doctoral students on preliminary examination of doctoral thesis, public defence and graduation over the summer 2026