Abstract
Light incident upon molecules trigger fundamental processes in diverse systems present in nature. However, under natural conditions, such as sunlight illumination, it is impossible to assign known times for photon arrival owing to continuous pumping, and therefore, the photo-induced processes cannot be easily investigated. In this work, we theoretically demonstrate that characteristics of sunlight photons such as photon number statistics and spectral distribution can be emulated through quantum entangled photon pair generated with the parametric down-conversion (PDC). We show that the average photon number of the sunlight in a specific frequency spectrum, e.g., the visible light, can be reconstructed by adjusting the PDC crystal length and pump frequency, and thereby molecular dynamics induced by the pseudo-sunlight can be investigated. The entanglement time, which is the hallmark of quantum entangled photons, can serve as a control knob to resolve the photon arrival times, enabling investigations on real-time dynamics triggered by the pseudo-sunlight photons.
Highlights
Giant strides in ultrashort laser pulse technology have opened up real-time observation of dynamical processes in complex physical, chemical, and biological systems
We address quantum entangled photon pairs generated through parametric down-conversion (PDC) in birefringent crystals [12]
What should be emphasized here is that the sample average in terms of ti does not change the physical properties of the heralded signal photon and the interaction with the molecule: it characterizes the statistical property of the heralded signal photon
Summary
Giant strides in ultrashort laser pulse technology have opened up real-time observation of dynamical processes in complex physical, chemical, and biological systems Under natural conditions, such as sunlight illumination, known times cannot be assigned for photon arrival due to continuous pumping, and photoinduced dynamical processes cannot be investigated. An advantage of the approach is that deductively obtained expressions of quantum states enable us to investigate photoinduced dynamical processes in molecular systems with quantitative underpinnings and help us to gain deeper insights into physical implications To this end, we address quantum entangled photon pairs generated through parametric down-conversion (PDC) in birefringent crystals [12]. The quantum state of one photon in the pair is a mixed state in terms of frequency with some spectral distribution, while the state of the other photon is not fully measured For these reasons, entangled photon pairs are expected to reconstruct the statistical characteristics of sunlight
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