Diamonds are forever mirrors
Diamond is known as a gemstone, but it is used in other applications ranging from drilling to electronics to quantum information. In the following post, we describe the story behind our manuscript “Diamond mirrors for high-power continuous-wave lasers” recently published in Nature Communications.
Behind the Book | Interplay of Quantum Mechanics and Nonlinearity
My new book illustrates how quantum mechanics, in combination with the nonlinearity in the quantum amplitude inherent in the discrete nonlinear Schrödinger equation, produces a plethora of interesting effects in the fields of polaron physics and Bose-Einstein condensation.
Behind the Book | The evolution of quantum optics
My new textbook illustrates how quantum optics has come to play an enabling role in many areas of modern science
Omnidirectional-total-reflection metagratings: A compact strategy for guiding mechanical waves
Guidance of classical waves is key to many technologies, but high-efficiency, omnidirectional performance is difficult to achieve. Here, an ultrathin, broadband metagrating is proposed for suppression of parasitic diffraction and guiding mechanical waves along an arbitrary path.
Microgravity and bone physiology: Impacts on skeletal stem/progenitors.
Our paper entitled “Transcriptional responses of skeletal stem/progenitor cells to hindlimb unloading and recovery correlate with localized but not systemic multi-systems impacts” just published in npj Microgravity, reveals how simulated microgravity alters bone at the stem/progenitor level.
Fine-tuning mechanism of "body building" in space microgravity environment with epigenetic modifications
Our paper entitled "Histone deacetylase HDA-4-mediated epigenetic regulation in space-flown C. elegans” just published in npj Microgravity, demonstrates a novel epigenetic modification in response to microgravity environment of space-grown C. elegans.
