Microwave noise field behaves like white light

Microwave noise field behaves like white light

WoS Article

This paper presents various applications where wide-band signals are the dominant factor. The approaches applied here are based on the present status of knowledge in the field of white light theory (the THz band) and also on the particle theory of light and the wave theory of light. White light theory is used to investigate wide- band applications of non-coherent electromagnetic waves in the GHz range represented by noise. In addition, the theoretical approaches to the field of white light are confirmed by various experiments with noise fields applied in the GHz range. These experiments show clear advantages of measurements performed by means of noise fields. The most important feature of these fields is the absence of interference effects.

This paper presents various applications where wide-band signals are the dominant factor. The approaches applied here are based on the present status of knowledge in the field of white light theory (the THz band) and also on the particle theory of light and the wave theory of light. White light theory is used to investigate wide- band applications of non-coherent electromagnetic waves in the GHz range represented by noise. In addition, the theoretical approaches to the field of white light are confirmed by various experiments with noise fields applied in the GHz range. These experiments show clear advantages of measurements performed by means of noise fields. The most important feature of these fields is the absence of interference effects.

Noice, interference, light,

Noice, interference, light,

FIALA, P.; MACHÁČ, J.; POLÍVKA, J.

2011

11.11.2010

PIER, Massachusets Institut of Technology

USA, PO BOX 425517, KENDALL SQUARE, CAMBRIDGE, MA 02142 USA

1559-8985

Progress in Electromagnetics Research-PIER

2011

111

United States of America

311

330

19

http://www.jpier.org/PIER/pier.php?volume=110