We humans always want to believe that we can overpower nature. However, the reality is that nature outperforms humans in many aspects. Animals\u27 abilities to navigate/orient and photosynthesis are two excellent examples in these aspects. However, the mechanisms underlying them are still unknown. For decades, scientists and researchers have made a lot of efforts to reveal these mysteries in nature. Recently, quantum coherence and entanglement are believed to play a crucial role in such biological systems–avian compass and photosynthesis. Thus, nature might know more tricks to utilize quantum mechanics than humans. Studies on the mechanisms underlying avian compass and photosynthesis are highly able to improve or inspire new technologies in...
AbstractPhotosynthetic light harvesting is a paradigmatic example for quantum effects in biology. In...
This thesis is a compilation of studies on delocalization measures, entanglement, and the role of qu...
Almost all life on Earth depends on the products of photosynthesis - the biochemical process whereby...
We humans always want to believe that we can overpower nature. However, the reality is that nature o...
AbstractThe idea that quantum-mechanical phenomena can play nontrivial roles in biology has fascinat...
In artificial systems, quantum superposition and entanglement typically decay rapidly unless cryogen...
Da steh ich nun, ich armer Tor! Und bin so klug als wie zuvor. In this PhD thesis I investigate the ...
How could quantum mechanics possibly be important in biology We will discuss this question in the li...
AbstractThis session introduced the novel area of quantum effects in biological systems: it presente...
Photosynthesis is a highly optimized process from which valuable lessons can be learned about the op...
AbstractQuantum coherence improves the quantum efficiency of excitonic energy transport within the F...
Ultrafast spectroscopy experiments show that photosynthetic systems can preserve quantum beats in th...
Applications of the concepts of quantum information theory are usually related to the powerful and c...
This is the final version. Available from Nature Research via the DOI in this record. Data availabil...
It is hypothesised that the avian compass relies on spin dynamics in a recombining radical pair. Qua...
AbstractPhotosynthetic light harvesting is a paradigmatic example for quantum effects in biology. In...
This thesis is a compilation of studies on delocalization measures, entanglement, and the role of qu...
Almost all life on Earth depends on the products of photosynthesis - the biochemical process whereby...
We humans always want to believe that we can overpower nature. However, the reality is that nature o...
AbstractThe idea that quantum-mechanical phenomena can play nontrivial roles in biology has fascinat...
In artificial systems, quantum superposition and entanglement typically decay rapidly unless cryogen...
Da steh ich nun, ich armer Tor! Und bin so klug als wie zuvor. In this PhD thesis I investigate the ...
How could quantum mechanics possibly be important in biology We will discuss this question in the li...
AbstractThis session introduced the novel area of quantum effects in biological systems: it presente...
Photosynthesis is a highly optimized process from which valuable lessons can be learned about the op...
AbstractQuantum coherence improves the quantum efficiency of excitonic energy transport within the F...
Ultrafast spectroscopy experiments show that photosynthetic systems can preserve quantum beats in th...
Applications of the concepts of quantum information theory are usually related to the powerful and c...
This is the final version. Available from Nature Research via the DOI in this record. Data availabil...
It is hypothesised that the avian compass relies on spin dynamics in a recombining radical pair. Qua...
AbstractPhotosynthetic light harvesting is a paradigmatic example for quantum effects in biology. In...
This thesis is a compilation of studies on delocalization measures, entanglement, and the role of qu...
Almost all life on Earth depends on the products of photosynthesis - the biochemical process whereby...