An official website of the United States government
Abstract Cryogenic calorimetric experiments to search for neutrinoless double-beta decay ($$0\nu \beta \beta $$ ) are highly competitive, scalable and versatile in isotope. The largest planned detector array, CUPID, is comprised of about 1500 individual Li$$_{2}$$ $$^{100}$$ MoO$$_4$$ detector modules with a further scale up envisioned for a follow up experiment (CUPID-1T). In this article, we present a novel detector concept targeting this second stage with a low impedance TES based readout for the Li$$_2$$ MoO$$_4$$ absorber that is easily mass-produced and lends itself to a multiplexed readout. We present the detector design and results from a first prototype detector operated at the NEXUS shallow underground facility at Fermilab. The detector is a 2-cm-side cube with 21 g mass that is strongly thermally coupled to its readout chip to allow rise-times of$$\sim $$ 0.5 ms. This design is more than one order of magnitude faster than present NTD based detectors and is hence expected to effectively mitigate backgrounds generated through the pile-up of two independent two neutrino decay events coinciding close in time. Together with a baseline resolution of 1.95 keV (FWHM) these performance parameters extrapolate to a background index from pile-up as low as$$5\cdot 10^{-6}$$ counts/keV/kg/yr in CUPID size crystals. The detector was calibrated up to the MeV region showing sufficient dynamic range for$$0\nu \beta \beta $$ searches. In combination with a SuperCDMS HVeV detector this setup also allowed us to perform a precision measurement of the scintillation time constants of Li$$_2$$ MoO$$_4$$ , which showed a primary component with a fast O(20 $$\upmu $$ s) time scale.
more »
« less
This content will become publicly available on July 1, 2026
CUPID, the Cuore upgrade with particle identification
Abstract CUPID, the CUORE Upgrade with Particle Identification, is a next-generation experiment to search for neutrinoless double beta decay ($$0\mathrm {\nu \beta \beta }$$ ) and other rare events using enriched Li$$_{2}$$ $$^{100}$$ MoO$$_{4}$$ scintillating bolometers. It will be hosted by the CUORE cryostat located at the Laboratori Nazionali del Gran Sasso in Italy. The main physics goal of CUPID is to search for$$0\mathrm {\nu \beta \beta }$$ of$$^{100}$$ Mo with a discovery sensitivity covering the full neutrino mass regime in the inverted ordering scenario, as well as the portion of the normal ordering regime with lightest neutrino mass larger than 10 meV. With a conservative background index of 10$$^{-4}$$ cts$$/($$ keV$$\cdot $$ kg$$\cdot $$ yr$$)$$ , 240 kg isotope mass, 5 keV FWHM energy resolution at 3 MeV and 10 live-years of data taking, CUPID will have a 90% C.L. half-life exclusion sensitivity of$$1.8\cdot 10^{27}$$ yr, corresponding to an effective Majorana neutrino mass ($$m_{\beta \beta }$$ ) sensitivity of 9–15 meV, and a$$3\sigma $$ discovery sensitivity of$$1\cdot 10^{27}$$ yr, corresponding to an$$m_{\beta \beta }$$ range of 12–21 meV.
more »
« less
- PAR ID:
- 10620616
- Author(s) / Creator(s):
- ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; more »
- Publisher / Repository:
- Springer
- Date Published:
- Journal Name:
- The European Physical Journal C
- Volume:
- 85
- Issue:
- 7
- ISSN:
- 1434-6052
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
More Like this
-
-
Abstract This work presents MARS (Modular apparatus for nuclear reactions spectroscopy) and its characterization prior to its first application to measure$$^6$$ Li+$$^{12}$$ C nuclear reactions. Measurements were performed at the 3 MV tandem accelerator of the CNA (National Accelerator Center), in Seville, Spain. The$$^{6}$$ Li projectiles were accelerated at energies around the$$^6$$ Li+$$^{12}$$ C Coulomb barrier ($$V^{\text {cm}}_{B}\sim 3.0$$ MeV - center of mass and$$V^{\text {lab}}_{B}\sim 4.5$$ MeV - laboratory frame). Using a$$^{6}\hbox {Li}^{2+}$$ beam, we measured at 13 laboratory energies from 4.00 to 7.75 MeV. Thus, we present the excitation function of$$^{12}$$ C($$^6$$ Li,$$^4$$ He)$$^{14}\hbox {N}^{g.s.}$$ reaction, at 2 backward angles ($$110.0^\circ $$ and$$140.0^\circ $$ ). The projectile dissociation, leading to this reaction, increases with the bombarding energies around the Coulomb barrier. This dissociation is favored at an optimum energy$$E_{b}^{\text {op}}$$ $$\ge $$ $$V_{B}$$ +$$|Q_{bu}|$$ , where$$V_{B}$$ is the Coulomb barrier of the system, and$$|Q_{bu}|$$ is the module ofQ-value for the$$^6$$ Li dissociation into$$^4$$ He+$$^2$$ H. This result corroborates a systematic analysis of weakly bound projectiles reacting on several targets [1].more » « less
-
Abstract Schinzel and Wójcik have shown that for every$$\alpha ,\beta \in \mathbb {Q}^{\times }\hspace{0.55542pt}{\setminus }\hspace{1.111pt}\{\pm 1\}$$ , there are infinitely many primespwhere$$v_p(\alpha )=v_p(\beta )=0$$ and where$$\alpha $$ and$$\beta $$ generate the same multiplicative group modp. We prove a weaker result in the same direction for algebraic numbers$$\alpha , \beta $$ . Let$$\alpha , \beta \in \overline{\mathbb {Q}} ^{\times }$$ , and suppose$$|N_{\mathbb {Q}(\alpha ,\beta )/\mathbb {Q}}(\alpha )|\ne 1$$ and$$|N_{\mathbb {Q}(\alpha ,\beta )/\mathbb {Q}}(\beta )|\ne 1$$ . Then for some positive integer$$C = C(\alpha ,\beta )$$ , there are infinitely many prime idealsPof Equation missing<#comment/>where$$v_P(\alpha )=v_P(\beta )=0$$ and where the group$$\langle \beta \bmod {P}\rangle $$ is a subgroup of$$\langle \alpha \bmod {P}\rangle $$ with$$[\langle \alpha \bmod {P}\rangle \,{:}\, \langle \beta \bmod {P}\rangle ]$$ dividingC. A key component of the proof is a theorem of Corvaja and Zannier bounding the greatest common divisor of shiftedS-units.more » « less
-
Abstract We introduce a distributional Jacobian determinant \det DV_{\beta}(Dv)in dimension two for the nonlinear complex gradient V_{\beta}(Dv)=\lvert Dv\rvert^{\beta}(v_{x_{1}},-v_{x_{2}})for any \beta>-1, whenever v\in W^{1\smash{,}2}_{\mathrm{loc}}and \beta\lvert Dv\rvert^{1+\beta}\in W^{1\smash{,}2}_{\mathrm{loc}}.This is new when \beta\neq 0.Given any planar ∞-harmonic function 𝑢, we show that such distributional Jacobian determinant \det DV_{\beta}(Du)is a nonnegative Radon measure with some quantitative local lower and upper bounds.We also give the following two applications. Applying this result with \beta=0, we develop an approach to build up a Liouville theorem, which improves that of Savin.Precisely, if 𝑢 is an ∞-harmonic function in the whole \mathbb{R}^{2}with \liminf_{R\to\infty}\inf_{c\in\mathbb{R}}\frac{1}{R}\barint_{B(0,R)}\lvert u(x)-c\rvert\,dx<\infty,then u=b+a\cdot xfor some b\in\mathbb{R}and a\in\mathbb{R}^{2}.Denoting by u_{p}the 𝑝-harmonic function having the same nonconstant boundary condition as 𝑢, we show that \det DV_{\beta}(Du_{p})\to\det DV_{\beta}(Du)as p\to\inftyin the weak-⋆ sense in the space of Radon measure.Recall that V_{\beta}(Du_{p})is always quasiregular mappings, but V_{\beta}(Du)is not in general.more » « less
-
Abstract It has been recently established in David and Mayboroda (Approximation of green functions and domains with uniformly rectifiable boundaries of all dimensions.arXiv:2010.09793) that on uniformly rectifiable sets the Green function is almost affine in the weak sense, and moreover, in some scenarios such Green function estimates are equivalent to the uniform rectifiability of a set. The present paper tackles a strong analogue of these results, starting with the “flagship degenerate operators on sets with lower dimensional boundaries. We consider the elliptic operators$$L_{\beta ,\gamma } =- {\text {div}}D^{d+1+\gamma -n} \nabla $$ associated to a domain$$\Omega \subset {\mathbb {R}}^n$$ with a uniformly rectifiable boundary$$\Gamma $$ of dimension$$d < n-1$$ , the now usual distance to the boundary$$D = D_\beta $$ given by$$D_\beta (X)^{-\beta } = \int _{\Gamma } |X-y|^{-d-\beta } d\sigma (y)$$ for$$X \in \Omega $$ , where$$\beta >0$$ and$$\gamma \in (-1,1)$$ . In this paper we show that the Green functionGfor$$L_{\beta ,\gamma }$$ , with pole at infinity, is well approximated by multiples of$$D^{1-\gamma }$$ , in the sense that the function$$\big | D\nabla \big (\ln \big ( \frac{G}{D^{1-\gamma }} \big )\big )\big |^2$$ satisfies a Carleson measure estimate on$$\Omega $$ . We underline that the strong and the weak results are different in nature and, of course, at the level of the proofs: the latter extensively used compactness arguments, while the present paper relies on some intricate integration by parts and the properties of the “magical distance function from David et al. (Duke Math J, to appear).more » « less
