Skip to end of metadata
Go to start of metadata

You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 9 Next »

Introduction

The Bruker Tracer 5 is a fully portable analyzer based on energy dispersive X-ray fluorescence (EDXRF) technology. When X-ray radiation from the handheld XRF instruments' X-ray tube (source) excites the atoms in a sample, the atoms release low-energy fluorescent X-rays detected by device's detector. The energy level of each fluorescent X-ray is characteristic of the element excited. As a result, one can tell what elements are present based on the emitted energy patterns of the X-rays. The Bruker Tracer 5 portable XRF (pXRF) allows for elemental measurements on section halves, discrete samples and prepared powder mounts. It is standard for the onboard technician to train one or more scientists in pXRF operation and sample prep. The scientists are then responsible for the work flow during the expedition. 

Before you begin: The instrument generates X-rays and should only be operated by users trained in radiation safety. Do not expose any part of your body to X-rays!

Theory of Operation

X-ray fluorescence is the production of X-rays in the electron orbits. The handheld XRF functions by bombarding the atoms of the target sample with X-rays. Some of the photons collide with K (and L) shell electrons of the sample, dislodging them from their orbits. This leaves a vacant space in the K (L) shell, which is immediately filled by an electron from the L, M, or N (M or N) shell. This is accompanied by a decrease in the atom's energy, and an X-ray photon is emitted with energy equal to this decrease. Since the energy change is uniquely defined for atoms of a given element, it is possible to predict definite frequencies for the emitted X-rays. This means that when electrons are dislodged from atoms, the emitted X-rays are always identical. These X-rays are analyzed with an X-ray detector and the quantity of K shell and/or L shell X-rays detected will be proportional to the number of atoms of the particular element or elements present in the sample.

Instrument and Accessories

Instrument

  • Bruker Tracer 5 portable XRF (pXRF) with 5 application calibrations (and associated reference check samples):
    • GeoExploration (CS-M2, Geo/Soil sample)
    • Limestone (Limestone square)
    • Mudrock (Air) (Mudrock square)
    • Mudrock (He) (Mudrock square)
    • Precious Metals 2 (Silver disk)
  • Color touch screen
  • AC power adaptor
  • 3 Lithium ion batteries and battery charger
  • 3mm and 8mm collimators
  • Filters for Cu, 200µm/Ti, 25µm/Al, 300µm (black) and Al, 76µm  (orange)
  • Prolene exam windows

Accessories

  • Desktop stand
  • Benchtop stand
  • Small stage with leaded cup shield
  • Background plate
  • Small scissor platform
  • Remote trigger cable
  • Thermometer/Clock/Humidity Monitor

Computer & Software

  • Laptop (RF 52534 or IL-53409-XRF)
  • Bruker RemoteCTRL (mirrors device screen)
  • Bruker Instrument Tools (data management)
  • Artax Spectra (for data processing)
  • All-in-one Filehub

Safety & General Precautions

The pXRF should be set up in a location that is isolated with minimal people working nearby, but also be easily accessible with sufficient space to scan section halves. This should be done without disrupting other workstations or without danger of dropping or mishandling section halves or core material. Typical locations have been the Downhole Lab bench, Paleo Lab bench or Correlators' station, if they are not sailing. Consult with the scientists, co-chiefs, and Lab Officer/Assistant Lab Officers for a preferred location for each expedition. Once set up and it has been established which scientists will be trained to use the device (usually two scientists per shift), dosimeter rings will be issued to each person that will be operating the device and the training technician. Each dosimeter ring has a unique ID and is assigned to a specific person. 

The Tracer 5 pXRF can be run either independently or through an attached pc laptop. The Bruker RemoteCTRL software on the laptop mirrors what is present on the screen of the Tracer5 and all functions are the same. If the connection between the device and the laptop is interrupted, there is no loss of data.

Note: The batteries cannot be 'hot swapped'. If a battery is running low, either shut off the Tracer, switch batteries and power it back on again, or plug the AC power in, change the battery, and then unplug the device again.

Application and Settings

The current application can be changed by selecting , choosing a different application type and selecting ‘OK’. This device has 5 applications installed (See Appendix for details). The best application for our purposes is GeoExploration. Each application has different scanning parameters which preferentially pick up some elements better than others. The device will keep the chosen application until manually changed.

Some application settings, such as beam scan duration, can be adjusted by selecting on the main display screen. Three settings can be adjusted (Fig. XX):

  • Duration: This screen will display the number of phases used by the current application. The time in seconds spent on each phase can be adjusted or set to unlimited (ending when the trigger is released). Note: The longer the scan time, the greater the accuracy and precision and the lower the error. For geological samples, 1 minute per phase or longer is not uncommon, but not required.
  • First Result/Test: This is the number of seconds before results will be shown on the display once a measurement has been triggered.
  • Trigger Active: The trigger can be set to ‘Auto’ or ‘Manual’ by selecting this button.
    • Auto: The measurement proceeds by pressing and releasing the trigger. Preferred.
    • Manual: The trigger must be pressed for the duration of the measurement. If the trigger is released at any time during the measurement, measuring will stop.

Figure XX. Settings display screen.

Select ‘Ok’ when finished adjusting or 'Cancel' to return to the previous screen.

Making a Measurement

Edit Sample Information

On the main display, click the ‘Edit Info’ button in the middle of the bottom row of buttons. This screen (Figure 4) is where the sample information is entered. All fields in the right column are editable by double clicking and should be reviewed and changed for each sample:

  • Sample Type:
    • Standard – a powdered standard in a sample cup
    • SHLF – a measurement taken directly on a section half or of a piece from a section half
    • PWDR – a powdered sample in a sample cup
    • Discrete – for any other samples
  • Expedition: The current expedition, example 397.
  • Site and Hole: The site and hole the sample was taken from, example: U1586A.
  • Core/Section: The core number with letter indicating the core type and the section in that core that is being measured or that the sample was taken from, example: 1H/6. If measuring a standard, enter the standard name, example: BCR 2 or BHVO 2.
  • TextID: The unique sample number for every sample. This is found on the lower right corner of the typical sample label, example: SHLF11754181. Note: If the device is connected to the laptop and using Bruker RemoteCtrl software, use the scanner to enter the TextID. If measuring a standard, use the information from the appropriate QAQC label provided. If a standard does not have a QAQC label, leave this field blank.
  • Top Offset (cm):
    • For a section half or sample from a section half (discrete, unaltered piece), this is the distance from the top of the core section, example: 34 or 101.5 (Do not put a range, just the beginning number of the measured area or sample).
    • For powdered samples and standards, use 0.
  • Comment: Use this to provide any additional information, such as a physical description for reference or to indicate a replicate measurement.

Figure 5. The Edit Info display screen.

Select 'OK' in the lower left corner of the screen. The display will return to the main display screen.

Execute a Scan

There are 2 ways to initiate a scan:

If the device is connected to the laptop select ‘Trigger Pull (F6)’ along the top of the RemoteCtrl program window or press F6. The measurement will begin and continue until finished. Note: If the device is moved away from the sample, the measurement will stop!

If you are not connected the laptop press the device to the sample, the proximity sensor will detect a sample and the device will be armed for measurement. Press and release the trigger. The measurement will begin and continue until finished. Note: If the device is moved away from the sample, the measurement will stop!

A beep will sound when the device has finished measuring and the device can be moved away from the sample or repositioned for the next measurement. At this point, the previous measurement’s data has been stored and added to the results file.

  1. Login to the computer using the login information on top of the computer keyboard.
  2. First, turn on the instrument. To do this press the button on top of the device screen and hold it for a few seconds (Figure 1).

Figure 1. Bruker pXRF Handheld instrument


         3. Click on Bruker RemoteCtrl in the computer screen (Figure 2). You will use this program to control the device from the computer while measuring your samples. 

Figure 2. Bruker Remote Ctrl program


4. Go to File Connect. A window will appear that will show the device number Ex.  900G7838. Select it  and click Ok (Figure 3).

Figure 3. Connecting the device to the computer.


5. A login window will appear on the screen, login using the info on top of the computer keyboard (Figure 4).

Figure 4. Login screen in Bruker Remote Control


6. A pop up message will appear after logging in that tells you the gun's configuration just click OK (Figure 5).

Figure 5. Configuration window when initializing the device.


7. When the device is connected, your screen should look like Figure 6. The device will say Not Armed when the x-ray is not active and the device will say Ready to Test when the x-ray is active.

Figure 6. pXRF initial screen. Left: X-ray is not active. Right: X-ray is active

Exporting Data

  1. Click on   in the bottom left of the main screen. After you click on Utilities the following window will appear on the screen (Figure 7). 

Figure 7. Utilities Window.


2. Click on Backup Data.

Then make sure Copy  is selected. 

IMPORTANT: Never select Move as that will move the data from the internal memory into the computer, therefore deleting it from the device. 

3. Save to Archive instead of USB by changing the following (Figure 8).

4. Click the blue down arrow and change the selected file from \USB to \ARCHIVE

Your Data File Destination Location should look like Figure 8.

Data File Destination Location: \ARCHIVE\Data\Backup-dd-mm-yyyy

Figure 8. Backup Data.

 

5. After you have selected the file destination folder click on 

6. Close Bruker RemoteCtrl.

Bruker Instrument Tools

After you backup the data go to Bruker Instrument Tools icon in the computer's initial window (Figure 9).

Figure 9. Bruker Instrument Tools program

 

Figure 10. Connect the device to Bruker Instrument Tools.


  1. Go to Device  Connect   Select 900G7838   and click Connect (Figure 10 & Figure 11).

Figure 11. Connect window.


2. After you are connected in Bruker instrument tools on the left side of the screen you will see a folder that says ARCHIVE

3. Open the ARCHIVE folder and you will see a screen like figure 12.

Figure 12. Archive folder


4. Go to Data  Open the most recent backup (Figure 13).

Figure 13. Data folder 


5. Select the file called GeoExploration.tsv (Figure 14)

Figure 14. GeoExploration file inside the backup folder.


6. Copy the GeoExploration.tsv file by right-clicking the file name and selecting copy from the dropdown menu. 

7. Without exiting the program find the folder you want to place the data in the bottom window (Figure 15).

8. After you find the folder right-click the selected folder and select Paste  from the dropdown menu.                  

Figure 15. Copy GeoExploration file and paste in to a folder in Windows(C:/)

Opening the file in Excel

  1. Open Excel.
  2. Open a new workbook and go to the Data tab and select  (Figure 16).

Figure 16. Excel Data window → Select From Text in the left.


You will be prompted to your computer saved folders and you can select the folder where you saved the GeoExploration.tsv file.

3. Once you find the folder select All Files in the bottom right (Figure 17).

4. Then select the GeoExploration.tsv file and click Import. (Figure 17).

Figure 17. Finding the GeoExploration file


5. A window will open showing you a preview of the file and you have to click Load. (Figure 18)

 

Figure 18. Data Preview


6. Click load and the data will be exported to excel and should look like Figure 19.

Figure 19. Exported file from pXRF device.


Setting Date & Time

Note: If the device is powered off for a significant period of time, it is possible for the internal battery to discharge. The only affect of this will be that the date and time are reset. If the device has not been used for an expedition, check that the date and time are correct before proceeding to measurements.

To set the time, select on the main display screen. Then select and then select Date/Time from the available list. A stylus or fine pointed tool (non-metal, such as a wooden applicator stick) is helpful to access the small buttons involved in setting the date and time.

In the screen that displays (Fig. XX), change the date by selecting on year, month and the numerical day. The time can be changed by using the selecting the hour, minute, second and AM/PM and using the small arrows to the right of the box to adjust the number. Please set the device to UTC time (NOT the same as ship operation time). If unsure what UTC time is, check the time on the nearest lab computer.

Once the correct date and time is shown (as close as possible), select ‘Apply’ and then ‘OK’ to exit the screen.

Figure XX. The date and time setup screen.

Appendix

Application Calibration Information

GeoExploration/GeoMining

Limestone

Precious Metals 2

Mudrock 2 Air

Mudrock 2 He

LIMS Component Table


PLACEHOLDER until the new PXRF components and data structure is defined
ANALYSISTABLENAMEABOUT TEXT
PXRFSAMPLEExpExp: expedition number
PXRFSAMPLESiteSite: site number
PXRFSAMPLEHoleHole: hole number
PXRFSAMPLECoreCore: core number
PXRFSAMPLETypeType: type indicates the coring tool used to recover the core (typical types are F, H, R, X).
PXRFSAMPLESectSect: section number
PXRFSAMPLEA/WA/W: archive (A) or working (W) section half.
PXRFSAMPLEtext_idText_ID: automatically generated database identifier for a sample, also carried on the printed labels. This identifier is guaranteed to be unique across all samples.
PXRFSAMPLEsample_numberSample Number: automatically generated database identifier for a sample. This is the primary key of the SAMPLE table.
PXRFSAMPLElabel_idLabel identifier: automatically generated, human readable name for a sample that is printed on labels. This name is not guaranteed unique across all samples.
PXRFSAMPLEsample_nameSample name: short name that may be specified for a sample. You can use an advanced filter to narrow your search by this parameter.
PXRFSAMPLEx_sample_stateSample state: Single-character identifier always set to "W" for samples; standards can vary.
PXRFSAMPLEx_projectProject: similar in scope to the expedition number, the difference being that the project is the current cruise, whereas expedition could refer to material/results obtained on previous cruises
PXRFSAMPLEx_capt_locCaptured location: "captured location," this field is usually null and is unnecessary because any sample captured on the JR has a sample_number ending in 1, and GCR ending in 2
PXRFSAMPLElocationLocation: location that sample was taken; this field is usually null and is unnecessary because any sample captured on the JR has a sample_number ending in 1, and GCR ending in 2
PXRFSAMPLEx_sampling_toolSampling tool: sampling tool used to take the sample (e.g., syringe, spatula)
PXRFSAMPLEchanged_byChanged by: username of account used to make a change to a sample record
PXRFSAMPLEchanged_onChanged on: date/time stamp for change made to a sample record
PXRFSAMPLEsample_typeSample type: type of sample from a predefined list (e.g., HOLE, CORE, LIQ)
PXRFSAMPLEx_offsetOffset (m): top offset of sample from top of parent sample, expressed in meters.
PXRFSAMPLEx_offset_cmOffset (cm): top offset of sample from top of parent sample, expressed in centimeters. This is a calculated field (offset, converted to cm)
PXRFSAMPLEx_bottom_offset_cmBottom offset (cm): bottom offset of sample from top of parent sample, expressed in centimeters. This is a calculated field (offset + length, converted to cm)
PXRFSAMPLEx_diameterDiameter (cm): diameter of sample, usually applied only to CORE, SECT, SHLF, and WRND samples; however this field is null on both Exp. 390 and 393, so it is no longer populated by Sample Master
PXRFSAMPLEx_orig_lenOriginal length (m): field for the original length of a sample; not always (or reliably) populated
PXRFSAMPLEx_lengthLength (m): field for the length of a sample [as entered upon creation]
PXRFSAMPLEx_length_cmLength (cm): field for the length of a sample. This is a calculated field (length, converted to cm).
PXRFSAMPLEstatusStatus: single-character code for the current status of a sample (e.g., active, canceled)
PXRFSAMPLEold_statusOld status: single-character code for the previous status of a sample; used by the LIME program to restore a canceled sample
PXRFSAMPLEoriginal_sampleOriginal sample: field tying a sample below the CORE level to its parent HOLE sample
PXRFSAMPLEparent_sampleParent sample: the sample from which this sample was taken (e.g., for PWDR samples, this might be a SHLF or possibly another PWDR)
PXRFSAMPLEstandardStandard: T/F field to differentiate between samples (standard=F) and QAQC standards (standard=T)
PXRFSAMPLElogin_byLogin by: username of account used to create the sample (can be the LIMS itself [e.g., SHLFs created when a SECT is created])
PXRFSAMPLElogin_dateLogin date: creation date of the sample
PXRFSAMPLElegacyLegacy flag: T/F indicator for when a sample is from a previous expedition and is locked/uneditable on this expedition
PXRFTESTtest changed_onTEST changed on: date/time stamp for a change to a test record.
PXRFTESTtest statusTEST status: single-character code for the current status of a test (e.g., active, in process, canceled)
PXRFTESTtest old_statusTEST old status: single-character code for the previous status of a test; used by the LIME program to restore a canceled test
PXRFTESTtest test_numberTEST test number: automatically generated database identifier for a test record. This is the primary key of the TEST table.
PXRFTESTtest date_receivedTEST date received: date/time stamp for the creation of the test record.
PXRFTESTtest instrumentTEST instrument [instrument group]: field that describes the instrument group (most often this applies to loggers with multiple sensors); often obscure (e.g., user_input)
PXRFTESTtest analysisTEST analysis: analysis code associated with this test (foreign key to the ANALYSIS table)
PXRFTESTtest x_projectTEST project: similar in scope to the expedition number, the difference being that the project is the current cruise, whereas expedition could refer to material/results obtained on previous cruises
PXRFTESTtest sample_numberTEST sample number: the sample_number of the sample to which this test record is attached; a foreign key to the SAMPLE table
PXRFTESTTop depth CSF-A (m)Top depth CSF-A (m): position of observation expressed relative to the top of the hole.
PXRFTESTBottom depth CSF-A (m)Bottom depth CSF-A (m): position of observation expressed relative to the top of the hole.
PXRFTESTTop depth CSF-B (m)Top depth [other] (m): position of observation expressed relative to the top of the hole. The location is presented in a scale selected by the science party or the report user.
PXRFTESTBottom depth CSF-B (m)Bottom depth [other] (m): position of observation expressed relative to the top of the hole. The location is presented in a scale selected by the science party or the report user.
PXRFRESULTdatetimeRESULT datetime: date/time stamp for each run
PXRFRESULTmodeRESULT mode: the calibration selected for the run (e.g., Geochem, Mudrock)
PXRFRESULTrun_numberRESULT run number: serial number of the run (incremented by the instrument for each sample)
PXRFSAMPLEsample_nameSAMPLE sample name: repeated display of the sample label ID from the SAMPLE table
PXRFRESULTreadingRESULT reading number: human-input run number for each sample
PXRFRESULTrun_spm_asman_idRESULT spectrum file ASMAN_ID: serial number of the ASMAN link for the spectral raw data (.SPM) file
PXRFRESULTrun_spm_filenameRESULT spectrum filename: file name for the spectral raw data (.SPM) file
PXRFRESULTrun_main_asman_idRESULT main report ASMAN_ID: serial number of the ASMAN link for the reduced data table (.CSV) file
PXRFRESULTrun_main_filenameRESULT main report filename: file name for the reduced data table (.CSV) file
PXRFRESULToffset (cm)RESULT offset (cm): position of the observation made, measured relative to the top of a section half.
PXRFRESULTresult commentsRESULT comment: contents of a result parameter with name = "comment," usually shown on reports as "Result comments"


ARCHIVE


LN-BrukerpXRFHandheld-270922-1259-68.pdf - September 27, 2022




  • No labels