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Consumables

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Consumable name
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Consumable stocks
PM980-XPOptic fiber designThorlabsSingle Mode Polarization-Maintaining Fiber, 970 - 1550 nm, PANDA-
FG105LVAOptic fiber designThorlabsØ105 µm Core, 0.10 NA, Step-Index Multimode Optical Fiber-
FG910UECOptic fiber designThorlabsØ910 µm Core, 0.22 NA, High OH TECS Double-Clad Multimode Fiber-
1060XPOptic fiber designThorlabsSingle Mode Fiber, 980 - 1600 nm, Ø125 µm Cladding-
FG200UCCOptic fiber designThorlabsØ200 µm Core, 0.22 NA, High OH TECS Double-Clad Multimode Fiber-
FP600URTOptic fiber designThorlabs0.50 NA, Ø600 µm Core Multimode Fiber, High OH-
FG400LEA (Ø 400/440µm, 0.22 NA)Optic fiber designThorlabsØ400 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
UM22-300 Optic fiber designThorlabsØ300 µm Core Solarization-Resistant, Polyimide-Coated Multimode Fiber-
HB1250TOptic fiber designThorlabsSingle Mode Polarization-Maintaining Fiber, 1310 nm, Bow-Tie-
YB1200-6/125DC-PMOptic fiber designThorlabsYtterbium-Doped SM PM Active Fiber, Cladding-Pumped, Double-Clad-
M12-980-125Optic fiber designThorlabsMetroGain Erbium-Doped SM Active Fiber for L-Band-
FG105LCAOptic fiber designThorlabsØ105 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA. Bare fiber. Multimode Fiber, 0.22 NA, Low OH, Ø105 µm Core, 400 - 2400 nm-
FP200URTOptic fiber designThorlabs0.50 NA, Ø200 µm Core Multimode Fiber, High OH-
S405-XPOptic fiber designThorlabsSingle Mode Fiber, 400 - 680 nm, Ø125 µm Cladding-
PMHN5Optic fiber designThorlabsPolarization-Maintaining Highly Nonlinear Fiber, +5 Anomalous Dispersion at 1550 nm-
ER80-8/125-PMOptic fiber designThorlabsLarge Mode Area Erbium-Doped PM Fiber, 80.0 dB/m Absorption at 1530 nm-
FT800UMTOptic fiber designThorlabsØ800 µm Core, 0.39 NA, High OH TECS-Clad Multimode Fiber-
PM1300-XPOptic fiber designThorlabsSingle Mode Polarization-Maintaining Fiber, 1270 - 1625 nm, PANDA-
SM400Optic fiber designThorlabsSingle Mode Fiber, 405 - 532 nm, Ø125 µm Cladding-
UM22-600 Optic fiber designThorlabsØ600 µm Core Solarization-Resistant, Polyimide-Coated Multimode Fiber-
PM460-HPOptic fiber designThorlabsSingle Mode Polarization-Maintaining Fiber, 460 - 700 nm, PANDA-
FG273LECOptic fiber designThorlabsØ273 µm Core, 0.22 NA, Low OH TECS Double-Clad Multimode Fiber-
GIF50COptic fiber designThorlabsØ50 µm Core Graded-Index Multimode Optical Fiber, 0.20 NA, OM2-
SM1550POptic fiber designThorlabsSingle Mode Fiber, 1310 - 1550 nm, Polyimide Coating-
HB830ZOptic fiber designThorlabsSingle Mode Polarizing Fiber (Zing™), 830 nm, Bow-Tie-
FG200LEAOptic fiber designThorlabsØ200 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
HN1550POptic fiber designThorlabsSingle Mode Highly Nonlinear Fiber, +1 Anomalous Dispersion at 1550 nm-
FT200EMTOptic fiber designThorlabsØ200 µm Core, 0.39 NA, Low OH TECS-Clad Multimode Fiber-
FG600UEA (Ø 600/660µm, 0.22 NA)Optic fiber designThorlabsØ600 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
YB1200-4/125Optic fiber designThorlabsYtterbium Doped Single Mode Fiber, 4.4 µm MFD-
P-10/125DC-PMOptic fiber designThorlabsPassive LMA PM Fiber, Matched to YB1200-10/125DC-PM. The supplier provides a numerical aperture of 0.08 - 0.085.-
FP400URTOptic fiber designThorlabs0.50 NA, Ø400 µm Core Multimode Fiber, High OH-
SM1950Optic fiber designThorlabsSingle Mode Fiber, 1850 - 2200 nm, Ø125 µm Cladding-
YB1200-25/250DCOptic fiber designThorlabsYtterbium-Doped LMA Double-Clad Fiber, 25 µm Core Diameter-
460HPOptic fiber designThorlabsSingle Mode Fiber, 450 - 600 nm, Ø125 µm Cladding-
FG1000LEAOptic fiber designThorlabsØ1000 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG400AEAOptic fiber designThorlabsØ400 µm Core, 0.22 NA, Solarization-Resistant Step-Index Multimode Fiber, Acrylate-Coated-
UM22-200Optic fiber designThorlabsØ200 µm Core Polyimide-Coated Multimode Fibers-
FP1500URTOptic fiber designThorlabs0.50 NA, Ø1500 µm Core Multimode Fiber, High OH-
FG200UEP (Ø 200/220µm, 0.22 NA)Optic fiber designThorlabsØ200 µm Core Polyimide-Coated Multimode Fibers-
YB1200-6/125DCOptic fiber designThorlabsYtterbium-Doped Single Mode Double-Clad Fiber, 7 µm MFD-
YB1200-25/250DC-PMOptic fiber designThorlabsYtterbium-Doped LMA PM Active Fiber, Cladding-Pumped, Double-Clad-
FG400LAOptic fiber designThorlabsCoreless Termination Fiber, Ø400 µm Glass Rod-
FG050LGA (Ø 50/125µm, 0.22 NA)Optic fiber designThorlabsØ50 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
PMDCFOptic fiber designThorlabsDispersion-Compensating Polarization-Maintaining Fiber, 1510 - 1620 nm-
780HPOptic fiber designThorlabsSingle Mode Fiber, 780 - 970 nm, Ø125 µm Cladding-
FG105LCA (Ø 105/125µm, 0.22 NA)Optic fiber designThorlabsØ105 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA. Bare fiber. Multimode Fiber, 0.22 NA, Low OH, Ø105 µm Core, 400 - 2400 nm-
FT400UMTOptic fiber designThorlabsØ400 µm Core, 0.39 NA, High OH TECS-Clad Multimode Fiber-
FG400LEPOptic fiber designThorlabsØ400 µm Core Polyimide-Coated Multimode Fibers-
SM450Optic fiber designThorlabsSingle Mode Fiber, 488 - 633 nm, Ø125 µm Cladding-
FG200UEAOptic fiber designThorlabsØ200 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FFM20026Optic fiber designThorlabsØ200 µm Core, 0.26 NA, InF₃ Multimode Fiber-
FG200UEA (Ø 200/220µm, 0.22 NA)Optic fiber designThorlabsØ200 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
SHB1250G80Optic fiber designThorlabsSingle Mode Spun Polarization-Maintaining Fiber, 1310 nm, Ø80 µm Cladding. The supplier provides a numerical aperture of 0.13 - 0.17.-
SHB1250Optic fiber designThorlabsSingle Mode Spun Polarization-Maintaining Fiber, 1310 nm, Ø125 µm Cladding. The supplier provides a numerical aperture of 0.13 - 0.17.-
PM2000Optic fiber designThorlabsSingle Mode Polarization-Maintaining Fiber, 1850 - 2200 nm, PANDA-
FG910LECOptic fiber designThorlabsØ910 µm Core, 0.22 NA, Low OH TECS Double-Clad Multimode Fiber-
PS1060Optic fiber designThorlabsPhotosensitive Select Cut-Off Fiber, 980 - 1060 nm, 6.2 µm MFD, 0.13 NA-
FG1000UEAOptic fiber designThorlabsØ1000 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG200LEP (Ø 200/220µm, 0.22 NA)Optic fiber designThorlabsØ200 µm Core Polyimide-Coated Multimode Fibers-
PM630-HPOptic fiber designThorlabsSingle Mode Polarization-Maintaining Fiber, 620 - 850 nm, PANDA-
PM-405Optic fiber designThorlabsSingle Mode Polarization-Maintaining Fiber, 400 - 488 nm, PANDA-
ER80-8/125Optic fiber designThorlabsErbium-Doped LMA Active Fiber, 80.0 dB/m Peak Core Absorption at 1530 nm-
FG400UEP Optic fiber designThorlabsØ400 µm Core Polyimide-Coated Multimode Fibers-
P-25/250DC-PMOptic fiber designThorlabsPassive LMA PM Fiber, Matched to YB1200-25/250DC-PM-
FFM05026Optic fiber designThorlabsØ50 µm Core, 0.26 NA, InF₃ Multimode Fiber-
ER80-4/125-HD-PMOptic fiber designThorlabsSingle Mode Erbium-Doped PM Fiber, 80.0 dB/m Absorption at 1530 nm, High Dispersion-
SHB1500Optic fiber designThorlabsSingle Mode Spun Polarization-Maintaining Fiber, 1550 nm, Ø125 µm Cladding. The supplier provides a numerical aperture of 0.13 - 0.16.-
FP600ERTOptic fiber designThorlabs0.50 NA, Ø600 µm Core Multimode Fiber, Low OH-
HN1550Optic fiber designThorlabsSingle Mode Highly Nonlinear Fiber, -1 Normal Dispersion at 1550 nm-
SM980-5.8-125Optic fiber designThorlabsSingle Mode Fiber, 980 - 1550 nm, Ø125 µm Cladding-
FG1000LEA (Ø 1000/1100µm, 0.22 NA)Optic fiber designThorlabsØ1000 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA-
FG250LAOptic fiber designThorlabsCoreless Termination Fiber, Ø250 µm Glass Rod-
FT600UMTOptic fiber designThorlabsØ600 µm Core, 0.39 NA, High OH TECS-Clad Multimode Fiber-
980HPOptic fiber designThorlabsSingle Mode Fiber, 980 - 1600 nm, Ø125 µm Cladding-
FG010LDAOptic fiber designThorlabs(Ø10 µm Core, 0.10 NA) Ø10 µm Core, 0.10 NA, Step-Index Multimode Optical Fiber. The supplier provides a numerical aperture of 0.100 - 0.115.-
FFH20026Optic fiber designThorlabsØ200 µm Core, 0.26 NA, Double-Clad InF₃ Multimode Fiber-
FG365UECOptic fiber designThorlabsØ365 µm Core, 0.22 NA, High OH TECS Double-Clad Multimode Fiber-
FT600EMTOptic fiber designThorlabsØ600 µm Core, 0.39 NA, Low OH TECS-Clad Multimode Fiber-
FG550LECOptic fiber designThorlabsØ550 µm Core, 0.22 NA, Low OH TECS Double-Clad Multimode Fiber-
SM300Optic fiber designThorlabsSingle Mode Fiber, 320 - 430 nm, Ø125 µm Cladding. The supplier provides a numerical aperture of 0.12 - 0.14.-
ER110-4/125Optic fiber designThorlabsErbium-Doped SM Active Fiber, 110.0 dB/m Peak Core Absorption at 1530 nm-
FT400EMTOptic fiber designThorlabsØ400 µm Core, 0.39 NA, Low OH TECS-Clad Multimode Fiber-
GIF625-1000Optic fiber designThorlabs1000 m Spool of Ø62.5 µm Core Graded-Index Multimode Optical Fiber-
DCF4Optic fiber designThorlabsDispersion Compensating Fiber, 1530 - 1565 nm, Ø125 µm Cladding-
FG200LEPOptic fiber designThorlabsØ200 µm Core Polyimide-Coated Multimode Fibers-
GF1BOptic fiber designThorlabsLow Loss Photosensitive Fiber, 1500 - 1600 nm, 10.4 µm MFD, 0.13 NA-
ER16-8/125Optic fiber designThorlabsErbium-Doped LMA Active Fiber, 16.0 dB/m Peak Core Absorption at 1530 nm-
GIF50EOptic fiber designThorlabsØ50 µm Core Graded-Index Multimode Optical Fiber, 0.20 NA, OM4-
UM22-100 (Ø 100/110µm, 0.22 NA)Optic fiber designThorlabsØ100 µm Core Solarization-Resistant, Polyimide-Coated Multimode Fiber-
HB1060ZOptic fiber designThorlabsSingle Mode Polarizing Fiber (Zing™), 1064 nm, Bow-Tie-
FG300AEAOptic fiber designThorlabsØ300 µm Core, 0.22 NA, Solarization-Resistant Step-Index Multimode Fiber, Acrylate-Coated-
PM-S350-HPOptic fiber designThorlabsSingle Mode Polarization-Maintaining Fiber, 350 - 460 nm, PANDA-
YB1200-20/400DCOptic fiber designThorlabsYtterbium-Doped LMA Double-Clad Fiber, 20 µm Core Diameter-
GF1Optic fiber designThorlabsPhotosensitive SM Fiber, 1500 - 1600 nm, 10.5 µm MFD, 0.13 NA-
UM22-400 Optic fiber designThorlabsØ400 µm Core Polyimide-Coated Multimode Fibers-
UM22-100Optic fiber designThorlabsØ100 µm Core Solarization-Resistant, Polyimide-Coated Multimode Fiber-
FG200LCCOptic fiber designThorlabsØ200 µm Core, 0.22 NA, Low OH TECS Double-Clad Multimode Fiber-
FG105UCA (Ø 105/125µm, 0.22 NA)Optic fiber designThorlabsØ105 µm Core Glass Clad Silica Multimode Optical Fiber, 0.22 NA. Bare fiber. Multimode Fiber, High OH, Ø105 µm Core, 250 - 1200 nm-
CCC1310-J9Optic fiber designThorlabsSingle Mode Bend-Insensitive Fiber, 1260 - 1625 nm, Ø900 µm PVC Jacket-

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Consumables

Consumables refer to items that are intended to be used once or have a limited lifespan before they need to be replaced. These include materials and products that are consumed or depleted during the course of experiments or procedures. Consumables are critical for maintaining the integrity, accuracy, and reproducibility of scientific experiments. In BrainSTEM, consumables are a shared model across users.

Types of consumable

  • Optic fiber designs: Thin, flexible fibers used for transmitting light signals, crucial for optical neural imaging and optogenetic manipulation of neurons.
  • Silicon probe designs: Microfabricated devices designed for recording or stimulating neural activity, allowing for high-resolution interfacing with neural tissue.
  • Virus constructs: Genetically engineered viruses used for delivering genes into neurons, enabling the study of gene function or the manipulation of neural activity.
  • Wire electrodes: Thin metal wires used for recording electrical signals from or delivering electrical stimulation to neurons, essential for electrophysiological studies.

Submission process

Anyone can submit consumables or submit changes to existing ones, but all submissions must be approved before they are available for usage. Please see existing entries for examples as to what to submit.

Fields

  • Name: The name of the consumable (required; must be unique).
  • Type: The type of consumable - see available types above (required).
  • Supplier: The supplier of the consumable (required).
  • Description: A description of the consumable.
  • Type specific fields: Each type has custom fields (required).

Permissions

Once a entry has been approved it becomes available to everyone.

API Access

The API allows for programmable access, enabling you to read, edit, and delete entries through the API. For details about the fields and data structure, refer to the documentation.