Antonella De Ninno
ENEA, Italy
Antonella De Ninno received the degrees in Physics from the University “La Sapienza” of Rome in 1984. Since 1987 she is researcher at the ENEA (Italian National Agency for New Technologies, Energy and Sustainable Economic Development) research centre in Frascati, near Rome. Her experience ranges from solid state to nuclear physics. She is author of more than 80 research items (papers, chapters, conference papers and patents). She serves as reviewer in many international journals and has been tutor of several undergraduate and graduate thesis and fellowship.
Her initial interests were in solid state physics and, in low temperature effects on materials and superconductivity.
In 1999-2002 she coordinated the ENEA Project “New Hydrogen Energy” on the nuclear properties of deuterium stored in solid lattices. The project was supervised by the Nobel laureate Carlo Rubbia, former President of ENEA.
The collaboration with two important Italian theoretical physicists, Giuliano Preparata and Emilio Del Giudice, started during the “New Hydrogen Energy” project, moves her towards the concept of quantum electrodynamics (QED) coherence in condensed matter. Such a theory allows an original approach to the supra-molecular structure of liquid water and its peculiar role in biology. Since then, she worked on several experimental layout (FTIR, X-ray fluorescence, THz spectroscopy) with the aim to prove the two-fluids nature of liquid water. She is also interested in the effect of ions in the structural order of water. QED also provides an insight in physical mechanism of interaction between extremely low frequency electromagnetic fields and living systems.
アントネッラ・デ・ニンノ
ENEA(新技術・エネルギー・持続的経済開発機構), (イタリア)
アントネッラ・デ・ニンノ博士は、1984年にローマの「ラ・サピエンツァ」大学で物理学を修め、1987年からローマ近郊のフラスカティにあるENEA研究センターで研究に従事しています。彼女は固体物理学から原子核物理学まで幅広い分野で活躍し、80件以上の論文・章・会議発表・特許を発表しています。初期は低温材料や超伝導に注目し、1999~2002年にはノーベル賞受賞者カルロ・ルッビア氏の監督下で「New Hydrogen Energy」プロジェクトを主導。続く Giuliano Preparata氏や Emilio Del Giudice氏との共同研究により、凝縮系における量子電磁力学(QED)のコヒーレンスを追求し、液体水の分子集合構造や生物学的役割、極低周波電磁界と生体の相互作用に新たな視点を提案しています。