THE LUX-ZEPLIN (LZ) DARK MATTER SEARCH
Lead Research Organisation:
University of Liverpool
Department Name: Physics
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
Planned Impact
This project will address the fundamental nature of the dark matter in the universe, of great importance to particle physics,
astrophysics and cosmology. Our science output will directly impact these fields by constraining models of physics beyond
the Standard Model and structure formation and evolution in the universe.
The technologies we are developing find wider and immediate benefit to other areas of physics within the STFC remit,
notably long baseline neutrino oscillation experiments and neutrino-less double beta decay (0vBB) searches. Construction
and operation of a multi-tonne noble gas time projection chamber impacts the UK and international neutrino physics
communities seeking to develop detectors based on similar principles and technology. Challenges such as high voltage
delivery, light collection, sensor readout, purification and electron transport, and long-term stability are all paralleled for
proposed experiments such as LBNF, which could also be located at SURF, and with significant UK involvement. Similarly,
LZ will develop and employ leading ultra-low background techniques to construct an instrument capable of detecting the
rarest particle interactions. Experiments searching for rare 0vBB decay have similar requirements on stringent radio-purity.
The UK 0vBB community and their international partners will benefit from our material screening instrument development
and radiation detection techniques.
Our outputs developing low-background material screening technology will find further application in a diverse range of
applications outside of physics. Mass-spectrometry instrumentation capable of detecting trace contaminants at parts-pertrillion
levels in small samples provides unprecedented sensitivity for food safety, pharmaceutical, environmental, forensic
and clinical research. Commercial service providers are limited in their capability due to regular exposure to high
concentrations of impurities in their samples. We will validate our system against food safety and pharmaceutical standards
from mid-2017. Demonstration of successful screening for toxicity in spiked samples, beginning with titanium dioxide
nanoparticles, has the potential for improving safety standards and impacting UK health.
We will also investigate feasibility of measuring impact of uranium and thorium in silicon electronics chips from 2017. The
alpha decays from U and Th progeny cause 'Single Event Effects' resulting in faults in integrated circuits; a problem that is
increasingly significant as chips become smaller, and an area of active research. Coupled to our underground ultra-low
background gamma spectroscopy capability, we can uniquely provide measures of the full U and Th chains, at sub-mBq/kg
sensitivity, accounting for the complete alpha particle emission rates. Pre-screening Si and other construction materials
with both mass spectrometry and gamma spectroscopy will allow manufacturers to increase reliability of their components
and foster greater economic competitiveness of UK industry.
Our research provides training for students and staff in a wide range of specialist skills that are readily transferrable to
commercial, financial and industrial sectors. Radiation detection technology and techniques are applicable to medical
imaging and defence, particularly screening for special nuclear material. Data processing, analysis, statistical methods,
programming, and Monte Carlo simulations are regularly employed in the banking and investment sectors. Construction of
vacuum systems, gas recirculation and purification plants, photosensors and many other systems in LZ provide valuable
engineering skills, as does project management training.
Finally, given the readily accessible nature of the topic of dark matter and deep underground operation, our research has
always captured the public's imagination, providing significant outreach and engagement opportunity for dissemination of
knowledge.
astrophysics and cosmology. Our science output will directly impact these fields by constraining models of physics beyond
the Standard Model and structure formation and evolution in the universe.
The technologies we are developing find wider and immediate benefit to other areas of physics within the STFC remit,
notably long baseline neutrino oscillation experiments and neutrino-less double beta decay (0vBB) searches. Construction
and operation of a multi-tonne noble gas time projection chamber impacts the UK and international neutrino physics
communities seeking to develop detectors based on similar principles and technology. Challenges such as high voltage
delivery, light collection, sensor readout, purification and electron transport, and long-term stability are all paralleled for
proposed experiments such as LBNF, which could also be located at SURF, and with significant UK involvement. Similarly,
LZ will develop and employ leading ultra-low background techniques to construct an instrument capable of detecting the
rarest particle interactions. Experiments searching for rare 0vBB decay have similar requirements on stringent radio-purity.
The UK 0vBB community and their international partners will benefit from our material screening instrument development
and radiation detection techniques.
Our outputs developing low-background material screening technology will find further application in a diverse range of
applications outside of physics. Mass-spectrometry instrumentation capable of detecting trace contaminants at parts-pertrillion
levels in small samples provides unprecedented sensitivity for food safety, pharmaceutical, environmental, forensic
and clinical research. Commercial service providers are limited in their capability due to regular exposure to high
concentrations of impurities in their samples. We will validate our system against food safety and pharmaceutical standards
from mid-2017. Demonstration of successful screening for toxicity in spiked samples, beginning with titanium dioxide
nanoparticles, has the potential for improving safety standards and impacting UK health.
We will also investigate feasibility of measuring impact of uranium and thorium in silicon electronics chips from 2017. The
alpha decays from U and Th progeny cause 'Single Event Effects' resulting in faults in integrated circuits; a problem that is
increasingly significant as chips become smaller, and an area of active research. Coupled to our underground ultra-low
background gamma spectroscopy capability, we can uniquely provide measures of the full U and Th chains, at sub-mBq/kg
sensitivity, accounting for the complete alpha particle emission rates. Pre-screening Si and other construction materials
with both mass spectrometry and gamma spectroscopy will allow manufacturers to increase reliability of their components
and foster greater economic competitiveness of UK industry.
Our research provides training for students and staff in a wide range of specialist skills that are readily transferrable to
commercial, financial and industrial sectors. Radiation detection technology and techniques are applicable to medical
imaging and defence, particularly screening for special nuclear material. Data processing, analysis, statistical methods,
programming, and Monte Carlo simulations are regularly employed in the banking and investment sectors. Construction of
vacuum systems, gas recirculation and purification plants, photosensors and many other systems in LZ provide valuable
engineering skills, as does project management training.
Finally, given the readily accessible nature of the topic of dark matter and deep underground operation, our research has
always captured the public's imagination, providing significant outreach and engagement opportunity for dissemination of
knowledge.
Organisations
Publications
Aalbers J
(2023)
First Dark Matter Search Results from the LUX-ZEPLIN (LZ) Experiment
in Physical Review Letters
Aalbers J
(2022)
Cosmogenic production of Ar 37 in the context of the LUX-ZEPLIN experiment
in Physical Review D
Akerib D
(2020)
Projected WIMP sensitivity of the LUX-ZEPLIN dark matter experiment
in Physical Review D
Akerib D
(2021)
Projected sensitivity of the LUX-ZEPLIN experiment to the two-neutrino and neutrinoless double ß decays of Xe 134
in Physical Review C
Akerib D
(2017)
Identification of radiopure titanium for the LZ dark matter experiment and future rare event searches
in Astroparticle Physics
Akerib D
(2020)
The LUX-ZEPLIN (LZ) experiment
in Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Akerib D
(2021)
Projected sensitivities of the LUX-ZEPLIN experiment to new physics via low-energy electron recoils
in Physical Review D
Akerib D. S.
(2018)
Projected WIMP sensitivity of the LUX-ZEPLIN (LZ) dark matter experiment
in arXiv e-prints
Mount B. J.
(2017)
LUX-ZEPLIN (LZ) Technical Design Report
in arXiv e-prints
Scovell P
(2018)
Low-background gamma spectroscopy at the Boulby Underground Laboratory
in Astroparticle Physics
Turner W
(2021)
Optical calibration system for the LUX-ZEPLIN (LZ) outer detector
in Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
| Description | FPGA and pulser boards produce optical pulses with required intensity 100s - 100000s photons per pulse and required width (below 20ns at the end of 21m fibre). The photodiode board monitors these light pulses and communicates with the FPGA board. FPGA boards can't be connected in series in master/slave arrangement. The boards have LEMO and USB connectors for communication with external devices. All hardware for Optical Calibration System have been produced and tested. It has been sent to SURF for installation. The electronics has been installed and tested. Software for the monitoring and calibration has been developed. The Optical Calibration System has been used for quality assurance of photomultiplier tubes during installation at LZ. The Optical Calibration System is routinely used for calibration and monitoring of the detector. |
| Exploitation Route | The short light pulses could be used for calibration of the optical systems and sensors. 8-channel optical pulser board could generate pulses which are shifted by 70ps or longer delays between channels. |
| Sectors | Education,Electronics |
| URL | https://doi.org/10.1016/j.nima.2021.165551 |
| Description | The optical calibration system is used as a prototype for calibration of the WATer CHerenkov Monitor for Anti-Neutrinos detector which would allow remote monitoring of nuclear reactors. |
| First Year Of Impact | 2019 |
| Sector | Security and Diplomacy |
| Impact Types | Policy & public services |
| Description | GTA Studentship |
| Amount | £35,000 (GBP) |
| Organisation | University of Liverpool |
| Sector | Academic/University |
| Country | United Kingdom |
| Start | 10/2016 |
| End | 03/2020 |
| Description | PPGP |
| Amount | £153,875 (GBP) |
| Funding ID | ST/M003639/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 04/2018 |
| End | 09/2019 |
| Description | XENON : R&D FOR A GLOBAL RARE EVENT OBSERVATORY (PHASE 2FUTURES) |
| Amount | £70,617 (GBP) |
| Funding ID | ST/V001841/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 04/2021 |
| End | 03/2024 |
| Description | XENON FUTURES: R&D for a Global Rare Event Observatory - Phase 1 |
| Amount | £121,717 (GBP) |
| Funding ID | ST/T007095/1 |
| Organisation | Science and Technologies Facilities Council (STFC) |
| Sector | Public |
| Country | United Kingdom |
| Start | 10/2019 |
| End | 03/2021 |
| Title | Integrated system for optical pulses |
| Description | An FPGA board has been integrated with the LED pulser and photodiode boards to produce and monitor short (~ns) optical pulses. There are 8 channels on the board and they could be delayed by approximately 70ps with respect to each other. There are photodiodes on the board allowing control and monitoring of integrated light from each channel. |
| Type Of Material | Improvements to research infrastructure |
| Year Produced | 2018 |
| Provided To Others? | Yes |
| Impact | This optical pulse generation system will be used for the optical calibration of the LZ Outer Detector. The same system will be used for Super-K and as a prototype for Hyper-K optical calibration. Flexibility and integrated control allows using this board for other purposes like stroboscopic photography. |
| Title | 8-channel photodiode board |
| Description | An 8-channel photodiode board for integrated light control and monitoring has been developed. The board can be used either with Arduino or with dedicated FPGA board. The photodiode board features the 8 Hamamatsu S5971 photodiodes in a housings with SMA connectors. It integrates the light signals, digitizes them and send output to the Arduino or FPGA board. |
| Type Of Technology | New/Improved Technique/Technology |
| Year Produced | 2017 |
| Impact | The photodiode board has low noise and allows measurements of optical signals from ~100s to ~1000000s photons per pulse with frequency from 1kHz. Such large dynamic range, low cost and possibility of connecting to Arduino provides opportunity of using the board in wide range of applications. |
| Title | FPGA board for short optical signal generation |
| Description | An FPGA board has been developed which could be used for generation of short (~ns) optical signals produced by LEDs or LDs. There are 8 channels on the board with the possibility of all the channels working together or separately. The channels could be delayed by approximately 70ps with respect to each other. There are photodiodes on the board allowing control and monitoring of integrated light from each channel. |
| Type Of Technology | New/Improved Technique/Technology |
| Year Produced | 2018 |
| Impact | This board will be used for the optical calibration of the LZ Outer Detector. The same board will be used for Super-K and as a prototype for Hyper-K optical calibration. Flexibility and integrated control allows using this board for other purposes like stroboscopic photography. |
| Title | Short 1-5ns LED pulser prototype |
| Description | A prototype of LED driver board producing short 1-5ns light pulses with the light output in the range of 100-1000000 photons has been developed. |
| Type Of Technology | New/Improved Technique/Technology |
| Year Produced | 2015 |
| Impact | The product will be used in development of calibration systems for LZ (Dark Matter) and Hyper-K experiments. |
| Description | Dark Matter Pizza Night |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Geographic Reach | Local |
| Primary Audience | Undergraduate students |
| Results and Impact | A presentation and discussion on the Dark Matter, LZ and future experiments for undergraduate students. |
| Year(s) Of Engagement Activity | 2021 |
| Description | Dark Matter Pizza night |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Geographic Reach | Local |
| Primary Audience | Undergraduate students |
| Results and Impact | 20 students attended Dark Matter Pizza night which was on Oct 31, 2017. I have made a presentation on Dark Matter and LZ experiment in particular. There was a discussion and games after the presentation to show how difficult it is to detect the Dark Matter. |
| Year(s) Of Engagement Activity | 2017 |
| Description | EuroScience Open Forum |
| Form Of Engagement Activity | A formal working group, expert panel or dialogue |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Public/other audiences |
| Results and Impact | Dark Matter discussion at the European Scientific Open Forum with audience approximately 100 people where Sergey Burdin was a member of expert panel. |
| Year(s) Of Engagement Activity | 2018 |
| URL | https://toulouse2018.esof.eu/en/ |
| Description | Pizza Night for undergraduate students |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Geographic Reach | Local |
| Primary Audience | Undergraduate students |
| Results and Impact | 20 undergraduate students attended the Pizza Night where I presented the current Dark Matter searches with the LZ detector and activities towards the next generation experiments. The presentation was followed by questions and a discussion. Some students reported that they decided to apply for PhD programme in this area after this presentation. |
| Year(s) Of Engagement Activity | 2022 |