AbstractThis session introduced the novel area of quantum effects in biological systems: it presented its seminal experimental discoveries and theoretical ideas, namely regarding photosynthetic systems and olfactory recognition, and discussed their potential applications to the development of artificial devices for more efficient light harvesting and finer sensing
Over the past century quantum mechanics has been widely applied in the understanding of several phys...
For many years, the fields of quantum optics and biology have rarely shared a common path. In quantu...
Ultrafast spectroscopy experiments show that photosynthetic systems can preserve quantum beats in th...
AbstractThis session introduced the novel area of quantum effects in biological systems: it presente...
AbstractThe idea that quantum-mechanical phenomena can play nontrivial roles in biology has fascinat...
Since the last decade the study of quantum mechanical phenomena in biological systems has become a v...
Quantum biology is a thriving field of research that requires from constant theoretical impulse to b...
The emerging field of quantum biology has led to a greater understanding of biological processes at ...
We propose a driven optical cavity quantum electrodynamics (QED) setup aimed at directly probing ene...
The thesis investigates the behaviour of the molecules responsible for absorbing light in the initia...
Is there a role for fundamental quantum physics in biology or evolution? Quantum physics was invente...
This paper presents a historical perspective on the development and application of quantum physics m...
Quantum biology is the subfield of physics concerned with natural systems where quantum mechanics is...
Despite certain quantum concepts, such as superposition states, entanglement, ‘spooky action at a di...
In this chapter, we explore the opportunities that the dynamical quantum effects recently revealed a...
Over the past century quantum mechanics has been widely applied in the understanding of several phys...
For many years, the fields of quantum optics and biology have rarely shared a common path. In quantu...
Ultrafast spectroscopy experiments show that photosynthetic systems can preserve quantum beats in th...
AbstractThis session introduced the novel area of quantum effects in biological systems: it presente...
AbstractThe idea that quantum-mechanical phenomena can play nontrivial roles in biology has fascinat...
Since the last decade the study of quantum mechanical phenomena in biological systems has become a v...
Quantum biology is a thriving field of research that requires from constant theoretical impulse to b...
The emerging field of quantum biology has led to a greater understanding of biological processes at ...
We propose a driven optical cavity quantum electrodynamics (QED) setup aimed at directly probing ene...
The thesis investigates the behaviour of the molecules responsible for absorbing light in the initia...
Is there a role for fundamental quantum physics in biology or evolution? Quantum physics was invente...
This paper presents a historical perspective on the development and application of quantum physics m...
Quantum biology is the subfield of physics concerned with natural systems where quantum mechanics is...
Despite certain quantum concepts, such as superposition states, entanglement, ‘spooky action at a di...
In this chapter, we explore the opportunities that the dynamical quantum effects recently revealed a...
Over the past century quantum mechanics has been widely applied in the understanding of several phys...
For many years, the fields of quantum optics and biology have rarely shared a common path. In quantu...
Ultrafast spectroscopy experiments show that photosynthetic systems can preserve quantum beats in th...