Notice Information
Notice Title
Contract for the Supply and Installation of a Squid Magnetometer with Versatile Measurement Options to the University of Birmingham
Notice Description
This project is funded by UK Research and Innovation's Engineering and Physical Sciences Research Council (EPSRC) and the University of Birmingham. The University of Birmingham invites tenders for supply and installation of a Superconducting Quantum Interference Device (SQUID) magnetometer with a versatile range of measurement options. The SQUID magnetometer and its measurement options will form the Midlands Mag Lab, a state-of-the-art magnetometry facility created with the support of an EPSRC Strategic Equipment award. It will facilitate advanced magnetic materials characterisation by academic and industry users in the Midlands region and beyond. The equipment will be used to deliver new understanding of fundamental magnetic materials properties, as well as developing new technologies that exploit the magnetic properties of solids in the areas of quantum materials and technologies, energy materials, and sustainable materials and recycling. The broad user base and diverse range of materials to be characterised with the equipment means that the equipment interface should be user friendly. The instrument should perform DC and AC magnetometry measurements on a single platform over a temperature range of 2 to 400 K in applied fields of up to 7 T. It should be compatible with a suite of measurement options to enable a versatile range of experimental conditions that meet the needs of the broad user base. Specifically, the measurement options should facilitate DC measurements: With a moment sensitivity in the range of 1 x 10 - 8 emu, At controlled sub-0.5 K temperatures as well as between 2 K and 1000 K, With active cancelation of residual magnetic flux so that samples can be cooled in a field less than 0.05 G, With field-setting resolution of 0.002 G for a field range up to 20 G, With sample mounting and automated rotation to enable sample rotations of up to 360 degrees in 0.1 degree increments in an applied field, Under applied voltage in a range 0.1 Hz to 100 Hz, Under applied pressure of at least 1 GPa. The measurement options should be easily exchangeable and integrated with the main instrument, with the entire system having a single PC-based controller capable of executing automated system setting and data collection. The instrument should be a wet system, connecting directly with the University of Birmingham's helium liquefier system. It should be delivered, installed, and tested on site with a maintenance and service package, with key users provided with training. This project may be funded by the European Regional Development Fund (ERDF) or; - European Structural and Investment Fund (ESIF) or; - UK Research and Innovation (UKRI), the strategic partnership of the UK's seven Research Councils.
Lot Information
Lot 1
The University of Birmingham invites tenders for supply and installation of a Superconducting Quantum Interference Device (SQUID) magnetometer with a versatile range of measurement options. The SQUID system and its measurement options will form the Midlands Mag Lab, a state of the art magnetometry facility created with the support of an EPSRC Strategic Equipment award. It will facilitate advanced magnetic materials characterisation by academic and industry users in the Midlands region and beyond. The equipment will be used to deliver new understanding of fundamental magnetic materials properties, as well as developing new technologies that exploit the magnetic properties of solids in the areas of quantum materials and technologies, energy materials and sustainable materials and recycling. The broad user base and diverse range of materials to be characterised with the equipment means that the equipment interface must be user friendly and reliable. General characteristics A SQUID magnetometry instrument that can be utilised for high-sensitivity and high throughput DC magnetometry measurements of polycrystalline, single-crystal and thin film magnetic materials. The instrument can also be utilised in AC magnetometry measurement mode. It is compatible with the range of measurement options as specified in Sections ii - vii below. Specification i. The magnetometer should 1) Be a SQUID-based magnetometer, 2) Have a magnetic moment sensitivity of at least 10-8 emu at low fields and at least 10-7 emu at the maximum field (see ii), 3) Measure a maximum magnetic moment up to 10 emu, 4) Enable measurement of samples of at least 5 mm in diameter, 5) Enable automated sample environment and measurement controls, with capability for programmable measurement sequences, 6) Operate through a stand-alone software with a user-friendly interface, 7) Be a wet system that consumes less than 5 L of liquid helium per day with a hold time longer than 10 days. ii. The magnetic field environment of the magnetometer should 8) Be produced by a superconducting solenoid, 9) Have a field range of at least -7 T to + 7 T, 10) Have a field homogeneity better than 100 ppm over a typical scan length, 11) Have a maximum field charging rate greater than 500 Oe/s, 12) Have a remanent field no greater than 5 Oe when set to zero field after applying the maximum field. iii. The temperature environment of the magnetometer should13) Enable continuous operation at any temperature from below 2 K up to 400 K using a liquid helium based wet cryostat, 14) Have a temperature stability of 0.5% or better over the entire measurement range, 15) Cool from room temperature to base in under 30 minutes. iv. A low-temperature option should 16) Be a 3He fridge, 17) Have a base temperature of less than 0.5 K, 18) Have a temperature stability of at least 1 %, 19) Cool from room temperature to base in under 3 hours, 20) Have a base temperature hold time greater than 24 hours, 21) Have a recondensation time of less than 30 mins, 22) Be fully compatible with the software and operation of the SQUID magnetometer. v. A high-temperature option should 23) Enable continuous temperature operation at all temperatures between 300 K and 1000 K, 24) Be fully compatible with the software and operation of the SQUID magnetometer. vi. A low-field option should 25) Cancel the residual magnetic field of the superconducting solenoid magnet to within 0.05 G of zero field, 26) Have a field resolution better than 0.002 G for applied fields in the range of 20 G, 27) Be fully compatible with the software and operation of the SQUID magnetometer. vii. An AC magnetometry measurement mode should 28) Have a response that is flat to within 5 % over the range 0.1 Hz - 1 kHz, 29) Have an amplitude of 0.1 - 10 Oe, 30) Have a magnetic moment sensitivity of at least 5 X 10-8 emu and accuracy better than 1 %, 31) Have a phase angle accuracy of at least 0.5, 32) Be fully compatible with the software and operation of the SQUID magnetometer, as well as the low- and high-temperature sample environments. viii. A high-pressure option should 33) Generate a maximum pressure of at least 1 GPa, 34) Generate minimal magnetic background to the measurement signal, 35) Enable measurement of samples with a diameter greater than 2 mm. ix. A sample rotation option should 36) Enable 360 sample rotation in 0.1 increments 37) Enable automated control of sample orientation using a stepper motor for sample rotation. x. An electric transport option should 38) Enable AC/DC resistance measurements, 39) Supply a continuous current between 10 nA and 100 mA, 40) Have a frequency range of at least 0.1 Hz to 100 Hz, 41) Enable application of a magnetic field in parallel and perpendicular to the bias direction, 42) Enable 2 and 4 wire measurements, 43) Enable magnetic measurements to be carried out with the same probe while applying a voltage.
Notice Details
Publication & Lifecycle
- Open Contracting ID
- ocds-h6vhtk-02a91e
- Publication Source
- Find A Tender Service
- Latest Notice
- https://www.find-tender.service.gov.uk/Notice/017648-2021
- Current Stage
- Award
- All Stages
- Tender, Award
Procurement Classification
- Notice Type
- Tender Notice
- Procurement Type
- Standard
- Procurement Category
- Goods
- Procurement Method
- Open
- Procurement Method Details
- Open procedure
- Tender Suitability
- Not specified
- Awardee Scale
- Large
Common Procurement Vocabulary (CPV)
- CPV Divisions
38 - Laboratory, optical and precision equipments (excl. glasses)
-
- CPV Codes
38340000 - Instruments for measuring quantities
38400000 - Instruments for checking physical characteristics
Notice Value(s)
- Tender Value
- £692,501 £500K-£1M
- Lots Value
- £692,501 £500K-£1M
- Awards Value
- Not specified
- Contracts Value
- £721,276 £500K-£1M
Notice Dates
- Publication Date
- 26 Jul 20214 years ago
- Submission Deadline
- 17 May 2021Expired
- Future Notice Date
- Not specified
- Award Date
- 18 Jul 20214 years ago
- Contract Period
- Not specified - Not specified
- Recurrence
- Not specified
Notice Status
- Tender Status
- Complete
- Lots Status
- Cancelled
- Awards Status
- Active
- Contracts Status
- Active
Buyer & Supplier
Contracting Authority (Buyer)
- Main Buyer
- UNIVERSITY OF BIRMINGHAM
- Contact Name
- Pauline Harrison-Johnson
- Contact Email
- p.e.harrison@bham.ac.uk
- Contact Phone
- Not specified
Buyer Location
- Locality
- BIRMINGHAM
- Postcode
- B15 2TT
- Post Town
- Birmingham
- Country
- England
-
- Major Region (ITL 1)
- TLG West Midlands (England)
- Basic Region (ITL 2)
- TLG3 West Midlands
- Small Region (ITL 3)
- TLG31 Birmingham
- Delivery Location
- TLG West Midlands (England)
-
- Local Authority
- Birmingham
- Electoral Ward
- Edgbaston
- Westminster Constituency
- Birmingham Edgbaston
Further Information
Open Contracting Data Standard (OCDS)
View full OCDS Record for this contracting process
The Open Contracting Data Standard (OCDS) is a framework designed to increase transparency and access to public procurement data in the public sector. It is widely used by governments and organisations worldwide to report on procurement processes and contracts.
{
"tag": [
"compiled"
],
"id": "ocds-h6vhtk-02a91e-2021-07-26T13:38:30+01:00",
"date": "2021-07-26T13:38:30+01:00",
"ocid": "ocds-h6vhtk-02a91e",
"initiationType": "tender",
"tender": {
"id": "SC9126/21",
"legalBasis": {
"id": "32014L0024",
"scheme": "CELEX"
},
"title": "Contract for the Supply and Installation of a Squid Magnetometer with Versatile Measurement Options to the University of Birmingham",
"status": "complete",
"classification": {
"scheme": "CPV",
"id": "38400000",
"description": "Instruments for checking physical characteristics"
},
"mainProcurementCategory": "goods",
"description": "This project is funded by UK Research and Innovation's Engineering and Physical Sciences Research Council (EPSRC) and the University of Birmingham. The University of Birmingham invites tenders for supply and installation of a Superconducting Quantum Interference Device (SQUID) magnetometer with a versatile range of measurement options. The SQUID magnetometer and its measurement options will form the Midlands Mag Lab, a state-of-the-art magnetometry facility created with the support of an EPSRC Strategic Equipment award. It will facilitate advanced magnetic materials characterisation by academic and industry users in the Midlands region and beyond. The equipment will be used to deliver new understanding of fundamental magnetic materials properties, as well as developing new technologies that exploit the magnetic properties of solids in the areas of quantum materials and technologies, energy materials, and sustainable materials and recycling. The broad user base and diverse range of materials to be characterised with the equipment means that the equipment interface should be user friendly. The instrument should perform DC and AC magnetometry measurements on a single platform over a temperature range of 2 to 400 K in applied fields of up to 7 T. It should be compatible with a suite of measurement options to enable a versatile range of experimental conditions that meet the needs of the broad user base. Specifically, the measurement options should facilitate DC measurements: With a moment sensitivity in the range of 1 x 10 - 8 emu, At controlled sub-0.5 K temperatures as well as between 2 K and 1000 K, With active cancelation of residual magnetic flux so that samples can be cooled in a field less than 0.05 G, With field-setting resolution of 0.002 G for a field range up to 20 G, With sample mounting and automated rotation to enable sample rotations of up to 360 degrees in 0.1 degree increments in an applied field, Under applied voltage in a range 0.1 Hz to 100 Hz, Under applied pressure of at least 1 GPa. The measurement options should be easily exchangeable and integrated with the main instrument, with the entire system having a single PC-based controller capable of executing automated system setting and data collection. The instrument should be a wet system, connecting directly with the University of Birmingham's helium liquefier system. It should be delivered, installed, and tested on site with a maintenance and service package, with key users provided with training. This project may be funded by the European Regional Development Fund (ERDF) or; - European Structural and Investment Fund (ESIF) or; - UK Research and Innovation (UKRI), the strategic partnership of the UK's seven Research Councils.",
"value": {
"amount": 692501,
"currency": "GBP"
},
"lots": [
{
"id": "1",
"description": "The University of Birmingham invites tenders for supply and installation of a Superconducting Quantum Interference Device (SQUID) magnetometer with a versatile range of measurement options. The SQUID system and its measurement options will form the Midlands Mag Lab, a state of the art magnetometry facility created with the support of an EPSRC Strategic Equipment award. It will facilitate advanced magnetic materials characterisation by academic and industry users in the Midlands region and beyond. The equipment will be used to deliver new understanding of fundamental magnetic materials properties, as well as developing new technologies that exploit the magnetic properties of solids in the areas of quantum materials and technologies, energy materials and sustainable materials and recycling. The broad user base and diverse range of materials to be characterised with the equipment means that the equipment interface must be user friendly and reliable. General characteristics A SQUID magnetometry instrument that can be utilised for high-sensitivity and high throughput DC magnetometry measurements of polycrystalline, single-crystal and thin film magnetic materials. The instrument can also be utilised in AC magnetometry measurement mode. It is compatible with the range of measurement options as specified in Sections ii - vii below. Specification i. The magnetometer should 1) Be a SQUID-based magnetometer, 2) Have a magnetic moment sensitivity of at least 10-8 emu at low fields and at least 10-7 emu at the maximum field (see ii), 3) Measure a maximum magnetic moment up to 10 emu, 4) Enable measurement of samples of at least 5 mm in diameter, 5) Enable automated sample environment and measurement controls, with capability for programmable measurement sequences, 6) Operate through a stand-alone software with a user-friendly interface, 7) Be a wet system that consumes less than 5 L of liquid helium per day with a hold time longer than 10 days. ii. The magnetic field environment of the magnetometer should 8) Be produced by a superconducting solenoid, 9) Have a field range of at least -7 T to + 7 T, 10) Have a field homogeneity better than 100 ppm over a typical scan length, 11) Have a maximum field charging rate greater than 500 Oe/s, 12) Have a remanent field no greater than 5 Oe when set to zero field after applying the maximum field. iii. The temperature environment of the magnetometer should13) Enable continuous operation at any temperature from below 2 K up to 400 K using a liquid helium based wet cryostat, 14) Have a temperature stability of 0.5% or better over the entire measurement range, 15) Cool from room temperature to base in under 30 minutes. iv. A low-temperature option should 16) Be a 3He fridge, 17) Have a base temperature of less than 0.5 K, 18) Have a temperature stability of at least 1 %, 19) Cool from room temperature to base in under 3 hours, 20) Have a base temperature hold time greater than 24 hours, 21) Have a recondensation time of less than 30 mins, 22) Be fully compatible with the software and operation of the SQUID magnetometer. v. A high-temperature option should 23) Enable continuous temperature operation at all temperatures between 300 K and 1000 K, 24) Be fully compatible with the software and operation of the SQUID magnetometer. vi. A low-field option should 25) Cancel the residual magnetic field of the superconducting solenoid magnet to within 0.05 G of zero field, 26) Have a field resolution better than 0.002 G for applied fields in the range of 20 G, 27) Be fully compatible with the software and operation of the SQUID magnetometer. vii. An AC magnetometry measurement mode should 28) Have a response that is flat to within 5 % over the range 0.1 Hz - 1 kHz, 29) Have an amplitude of 0.1 - 10 Oe, 30) Have a magnetic moment sensitivity of at least 5 X 10-8 emu and accuracy better than 1 %, 31) Have a phase angle accuracy of at least 0.5, 32) Be fully compatible with the software and operation of the SQUID magnetometer, as well as the low- and high-temperature sample environments. viii. A high-pressure option should 33) Generate a maximum pressure of at least 1 GPa, 34) Generate minimal magnetic background to the measurement signal, 35) Enable measurement of samples with a diameter greater than 2 mm. ix. A sample rotation option should 36) Enable 360 sample rotation in 0.1 increments 37) Enable automated control of sample orientation using a stepper motor for sample rotation. x. An electric transport option should 38) Enable AC/DC resistance measurements, 39) Supply a continuous current between 10 nA and 100 mA, 40) Have a frequency range of at least 0.1 Hz to 100 Hz, 41) Enable application of a magnetic field in parallel and perpendicular to the bias direction, 42) Enable 2 and 4 wire measurements, 43) Enable magnetic measurements to be carried out with the same probe while applying a voltage.",
"awardCriteria": {
"criteria": [
{
"name": "Compliance to the Specifications",
"type": "quality",
"description": "60"
},
{
"name": "After Sales and Technical back up",
"type": "quality",
"description": "10"
},
{
"name": "Delivery and Training",
"type": "quality",
"description": "10"
},
{
"name": "Sustainability and Environmental",
"type": "quality",
"description": "5"
},
{
"name": "Standard Supplier Questionnaire (SQ) Part 1 and Part 2",
"type": "quality",
"description": "10"
},
{
"type": "price",
"description": "5"
}
]
},
"value": {
"amount": 692501,
"currency": "GBP"
},
"contractPeriod": {
"endDate": "2022-01-31T23:59:59Z"
},
"hasRenewal": false,
"submissionTerms": {
"variantPolicy": "notAllowed"
},
"hasOptions": false,
"status": "cancelled"
}
],
"items": [
{
"id": "1",
"additionalClassifications": [
{
"scheme": "CPV",
"id": "38340000",
"description": "Instruments for measuring quantities"
}
],
"deliveryAddresses": [
{
"region": "UKG"
},
{
"region": "UKG"
}
],
"relatedLot": "1"
}
],
"submissionMethod": [
"electronicSubmission"
],
"submissionMethodDetails": "http://www.in-tendhost.com/universityofbirmingham",
"procurementMethod": "open",
"procurementMethodDetails": "Open procedure",
"coveredBy": [
"GPA"
],
"tenderPeriod": {
"endDate": "2021-05-17T12:00:00+01:00"
},
"submissionTerms": {
"languages": [
"en"
]
},
"awardPeriod": {
"startDate": "2021-05-24T12:00:00+01:00"
},
"bidOpening": {
"date": "2021-05-24T12:00:00+01:00"
},
"hasRecurrence": false
},
"parties": [
{
"id": "GB-FTS-7157",
"name": "UNIVERSITY OF BIRMINGHAM",
"identifier": {
"legalName": "UNIVERSITY OF BIRMINGHAM"
},
"address": {
"streetAddress": "Chancellors Court,Edgbaston",
"locality": "BIRMINGHAM",
"region": "UKG",
"postalCode": "B152TT",
"countryName": "United Kingdom"
},
"contactPoint": {
"name": "Pauline Harrison-Johnson",
"email": "P.E.Harrison@bham.ac.uk",
"url": "http://www.in-tendhost.com/universityofbirmingham"
},
"roles": [
"buyer"
],
"details": {
"url": "https://www.birmingham.ac.uk/index.aspx",
"classifications": [
{
"scheme": "TED_CA_TYPE",
"id": "BODY_PUBLIC",
"description": "Body governed by public law"
},
{
"scheme": "COFOG",
"id": "09",
"description": "Education"
}
]
}
},
{
"id": "GB-FTS-8620",
"name": "The University of Birmingham",
"identifier": {
"legalName": "The University of Birmingham"
},
"address": {
"locality": "Edgbaston",
"postalCode": "B15 2TT",
"countryName": "United Kingdom"
},
"roles": [
"reviewBody"
]
},
{
"id": "GB-FTS-23416",
"name": "UNIVERSITY OF BIRMINGHAM",
"identifier": {
"legalName": "UNIVERSITY OF BIRMINGHAM"
},
"address": {
"streetAddress": "Chancellors Close",
"locality": "BIRMINGHAM",
"region": "UKG",
"postalCode": "B152TT",
"countryName": "United Kingdom"
},
"contactPoint": {
"name": "Pauline Harrison-Johnson",
"email": "p.e.harrison@bham.ac.uk"
},
"roles": [
"buyer"
],
"details": {
"url": "https://www.birmingham.ac.uk/index.aspx",
"classifications": [
{
"scheme": "TED_CA_TYPE",
"id": "BODY_PUBLIC",
"description": "Body governed by public law"
},
{
"scheme": "COFOG",
"id": "09",
"description": "Education"
}
]
}
},
{
"id": "GB-FTS-23417",
"name": "Quantum Design UK and Ireland Ltd",
"identifier": {
"legalName": "Quantum Design UK and Ireland Ltd"
},
"address": {
"streetAddress": "1 Mole Business Park Leatherhead",
"locality": "Surrey",
"region": "UKI",
"postalCode": "KT22 7BA",
"countryName": "United Kingdom"
},
"roles": [
"supplier"
],
"details": {
"scale": "large"
}
},
{
"id": "GB-FTS-8446",
"name": "The University of Birmingham",
"identifier": {
"legalName": "The University of Birmingham"
},
"address": {
"locality": "Birmingham",
"postalCode": "B15 2TT",
"countryName": "United Kingdom"
},
"roles": [
"reviewBody"
]
}
],
"buyer": {
"id": "GB-FTS-23416",
"name": "UNIVERSITY OF BIRMINGHAM"
},
"language": "en",
"awards": [
{
"id": "017648-2021-1",
"relatedLots": [
"1"
],
"status": "active",
"suppliers": [
{
"id": "GB-FTS-23417",
"name": "Quantum Design UK and Ireland Ltd"
}
]
}
],
"contracts": [
{
"id": "017648-2021-1",
"awardID": "017648-2021-1",
"status": "active",
"value": {
"amount": 721276,
"currency": "GBP"
},
"dateSigned": "2021-07-19T00:00:00+01:00"
}
],
"bids": {
"statistics": [
{
"id": "1",
"measure": "bids",
"relatedLot": "1",
"value": 2
}
]
}
}