Gain properties of a conical horn in the optical region

Abstract: In this paper, we present the unique properties of a conical horn to transform incident radiation in the optical spectral region. A theoretical study is carried out in the framework of geometric optics to determine the gain characteristics of a conical horn depending on its apex angle and entrance and exit windows. In the experiment, various samples of a conical horn with its inner surface covered by stainless steel and aluminum foil are investigated. A software program is developed to simulate the transformat… Show more

“…As shown in Ref. 19, the angle of view of the horn at full width at half maximum (FWHM) is approximately equal to its apex angle 2φ. Thus, using a horn instead of a lens expands the field of view of the detection system with a focusing element and sensor.…”

“…To analyze methods for focusing thermal waves from relatively hot objects, the characteristics of conical horns are studied in the geometrical optics approximation. 19 For our purpose, this type of radiation concentrator (when incident beam energy is collected at the horn's output window) is preferred because specific differences between focusing lenses and conical horns have been indicated. In Fig.…”

“…The optimal length for given φ can be defined from equation (12) in Ref. 19: l≈d02 tan φ(cos φsin φ−1),where d0 is the diameter of the output window. With this length, the horn gain g (for normal incidence of radiation) is determined using the ratio of radiation intensity on the input πdi2/4 (where di is the diameter) and output πd02/4 windows from equation (11) in Ref.…”

“…With this length, the horn gain g (for normal incidence of radiation) is determined using the ratio of radiation intensity on the input πdi2/4 (where di is the diameter) and output πd02/4 windows from equation (11) in Ref. 19: g=di2d02=cot2 φ.…”

“…18. The gain characteristics of the conical horn depending on its geometric form and the reflection coefficient of its inner surface are studied 19 in the optical range. Implementation of visible object tracking with non-imaging methods allowed us to develop and test a human detection technique in the thermal infrared region.…”

Distant human detection in the thermal infrared region

“…As shown in Ref. 19, the angle of view of the horn at full width at half maximum (FWHM) is approximately equal to its apex angle 2φ. Thus, using a horn instead of a lens expands the field of view of the detection system with a focusing element and sensor.…”

“…To analyze methods for focusing thermal waves from relatively hot objects, the characteristics of conical horns are studied in the geometrical optics approximation. 19 For our purpose, this type of radiation concentrator (when incident beam energy is collected at the horn's output window) is preferred because specific differences between focusing lenses and conical horns have been indicated. In Fig.…”

“…The optimal length for given φ can be defined from equation (12) in Ref. 19: l≈d02 tan φ(cos φsin φ−1),where d0 is the diameter of the output window. With this length, the horn gain g (for normal incidence of radiation) is determined using the ratio of radiation intensity on the input πdi2/4 (where di is the diameter) and output πd02/4 windows from equation (11) in Ref.…”

“…With this length, the horn gain g (for normal incidence of radiation) is determined using the ratio of radiation intensity on the input πdi2/4 (where di is the diameter) and output πd02/4 windows from equation (11) in Ref. 19: g=di2d02=cot2 φ.…”

“…18. The gain characteristics of the conical horn depending on its geometric form and the reflection coefficient of its inner surface are studied 19 in the optical range. Implementation of visible object tracking with non-imaging methods allowed us to develop and test a human detection technique in the thermal infrared region.…”

Distant human detection in the thermal infrared region

Long Range and Wide Field of View Thermal Detection Miniature System with a Conical Horn

A Comprehensive Theory on Gain and Field of View of Conical Horn for Sensing Applications in the Optical and THz Ranges