Add to ORKGDirect-detection experiments for light dark matter are making enormous leaps in reaching previously unexplored model space. Several recent proposals rely on collective excitations, where the experimental sensitivity is highly dependent on detailed properties of the target material, well beyond just nucleus mass numbers as in conventional searches. It is thus important to optimize the target choice when considering which experiment to build. We carry out a comparative study of target materials across several detection channels, focusing on electron transitions and single (acoustic or optical) phonon excitations in crystals, as well as the traditional nuclear recoils. We compare materials currently in use in nuclear recoil experiments (Si, Ge...
In the last century, cosmological and astrophysical observations indicated that ~ 85% of the matter ...
The scattering of dark matter (DM) particles to excite collective vibrational modes knownas phonons ...
We develop a formalism to describe the scattering of dark matter (DM) particles by electrons bound i...
Direct-detection experiments for light dark matter are making enormous leaps in reaching previously ...
Single phonon excitations are sensitive probes of light-dark matter in the keV-GeV mass window. For ...
Discovering the nature of dark matter (DM) remains one of the most important outstanding questions i...
We suggest a novel experimental concept for detecting MeV-to-GeV-mass dark matter, in which the dark...
We show that polar materials are excellent targets for direct detection of sub-GeV dark matter due t...
We present a unified theoretical framework for computing spin-independent direct detection rates via...
We consider the direct detection of dark matter (DM) with polar materials, where single production o...
We consider the direct detection of dark matter (DM) with polar materials, where single production o...
A large body of astrophysical observations indicate that around 85% of the matter in the universe is...
We propose a new low-threshold direct-detection concept for dark matter and for coherent nuclear sca...
Inorganic scintillators are important elements of a new type of cryogenic phonon scintillation detec...
In the last century, cosmological and astrophysical observations indicated that ~ 85% of the matter ...
The scattering of dark matter (DM) particles to excite collective vibrational modes knownas phonons ...
We develop a formalism to describe the scattering of dark matter (DM) particles by electrons bound i...
Direct-detection experiments for light dark matter are making enormous leaps in reaching previously ...
Single phonon excitations are sensitive probes of light-dark matter in the keV-GeV mass window. For ...
Discovering the nature of dark matter (DM) remains one of the most important outstanding questions i...
We suggest a novel experimental concept for detecting MeV-to-GeV-mass dark matter, in which the dark...
We show that polar materials are excellent targets for direct detection of sub-GeV dark matter due t...
We present a unified theoretical framework for computing spin-independent direct detection rates via...
We consider the direct detection of dark matter (DM) with polar materials, where single production o...
We consider the direct detection of dark matter (DM) with polar materials, where single production o...
A large body of astrophysical observations indicate that around 85% of the matter in the universe is...
We propose a new low-threshold direct-detection concept for dark matter and for coherent nuclear sca...
Inorganic scintillators are important elements of a new type of cryogenic phonon scintillation detec...
In the last century, cosmological and astrophysical observations indicated that ~ 85% of the matter ...
The scattering of dark matter (DM) particles to excite collective vibrational modes knownas phonons ...
We develop a formalism to describe the scattering of dark matter (DM) particles by electrons bound i...