Oxford Instruments
Filter
Showing 61–90 of 108 results
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | MQC+ |
| Instrument Type | Low-Field NMR Analyzer |
| Sample Types | Solid-Liquid Dual-Phase |
| Resolution | <1 Hz |
| Dimensions (Standard Configuration) | 235 mm (diameter) / 0.2 mL sample volume |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | MQR |
| Field Strength | 0.54 T (23 MHz ¹H) |
| Operating Frequency | 23 MHz (¹H) |
| Probe Options | 10 mm, 18 mm, 26 mm diameter |
| Sample Compatibility | Solid and liquid samples (dual-phase) |
| Pulse Sequence Capability | User-programmable via Application Developer software |
| Gradient Options | Bipolar PFG (1D), 3-axis PFG (MRI-capable) |
| Temperature Control | Optional VT probe |
| Data Analysis | 1D/2D inverse Laplace transform, T₁/T₂/D diffusion correlation, phase-resolved component analysis |
| Software Environment | Open-data architecture with Python-compatible API |
| Compliance | Designed for GLP/GMP-aligned workflows |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | NA-TKD |
| Compatibility | Fully compatible with Oxford Instruments Symmetry CMOS EBSD detectors |
| Configuration | Near-axis phosphor screen geometry |
| Primary Application | High-resolution crystallographic orientation and strain mapping in thin, beam-sensitive, or nanoscale materials |
| Brand | Oxford Instruments |
|---|---|
| Origin | France |
| Model | OCAM² |
| Sensor Type | Back-illuminated Frame-transfer EMCCD (OCAM²K) / Split-frame EMCCD with Embedded Electronic Shutter (OCAM²S) |
| Resolution | 240 × 240 pixels |
| Pixel Size | 24 µm |
| Maximum Frame Rate | 2067 fps (up to 3700 fps in binning mode) |
| Read Noise | Sub-electron (≤0.7 e⁻ rms) |
| Quantum Efficiency | >95% (400–900 nm) |
| Minimum Integration Time | <1 µs (OCAM²S, with 50 ns timing precision) |
| Image Transfer Time | 12 µs per frame |
| Output Latency | As low as 43 µs post-exposure |
| Clocking Speed | Up to 7 Mlines/s |
| Spectral Range | 400–900 nm |
| Cooling | Peltier-cooled (−40 °C typical operating temperature) |
| Compliance | CE, RoHS, ISO 9001-manufactured |
| Software Interface | GenICam-compliant, supports GigE Vision and custom SDKs |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | OmniGIS II |
| Gas Port Configuration | Single-port, multi-source compatible |
| Gas Capacity | Up to 3 primary gas sources + 2 auxiliary gases |
| Control Architecture | Pressure-feedback regulated flow control |
| Vacuum Compatibility | Adaptive operation across wide chamber pressure range (10⁻⁷ mbar to 10⁻¹ mbar) |
| Integration | Designed for SEM and FIB platforms |
| Compliance | CE-marked |
| Software Interface | Native integration with AZtec GIS Control Suite (v5.0+) |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | OmniProbe (OP350, OP400, Cryo) |
| Drive Technology | Piezoelectric actuation |
| Positioning Resolution | Sub-nanometer |
| Operating Temperature Range (Cryo) | –180 °C to room temperature |
| Port Compatibility | Standard SEM/FIB vacuum feedthroughs (e.g., 60 mm, 80 mm) |
| Control Interface | Digital USB/Ethernet with real-time image-synchronized calibration |
| Compliance | Designed for GLP/GMP-aligned workflows |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | Optistat |
| Price Range | USD 13,500 – 40,500 (FOB UK) |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | Optistat Dry |
| Temperature Range | < 3 K to 300 K |
| Cool-down Time | ≤120 min to 10 K |
| Optical Aperture | Up to 28 mm diameter |
| Numerical Aperture | f/1 |
| Electrical Feedthroughs | Up to 12 leads |
| Cooling Options | Air-cooled or water-cooled cryocooler |
| Vibration Level | < 10 µm (when mounted on optical table) |
| Compliance | Designed for ISO/IEC 17025-compliant laboratories, compatible with GLP/GMP data integrity requirements |
| Brand | Oxford Instruments |
|---|---|
| Model | Plasmalab 133 |
| Maximum Wafer Size | 300 mm (330 mm chuck) |
| RF Power | 600 W, 13.56 MHz |
| Electrode Temperature Control | 10 °C – 80 °C (water-cooled) |
| Endpoint Detection | Verity Optical Emission Spectroscopy (OES), 200–800 nm |
| Gas Delivery | 8-line manifold with 7 Mass Flow Controllers (MFCs): Ar (100 sccm), Cl₂ (100 sccm), BCl₃ (100 sccm), N₂O (200 sccm), CHF₃ (200 sccm), NH₃ (100 sccm), CH₄ (50 sccm) |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | Plasmalab System 100 |
| Wafer Handling | Up to 200 mm (8") single-wafer or batch (6 × 50 mm), cassette-to-cassette transfer via load-lock chamber |
| Substrate Temperature Range | –150 °C to +700 °C |
| Gas Delivery | Optional 6- or 12-channel gas manifold (remotely mounted) |
| In-situ Endpoint Detection | Laser interferometry and/or optical emission spectroscopy (OES) compatible |
| Integration Capability | Cluster tool ready with robotic wafer handling |
| Process Flexibility | Reactive ion etching (RIE), inductively coupled plasma (ICP), electron cyclotron resonance (ECR), and plasma-enhanced chemical vapor deposition (PECVD) modes |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | PlasmaPro 100 ALE |
| Pricing | Available Upon Request |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | PlasmaPro 100 Cobra |
| Wafer Capacity | Single-wafer and batch processing up to 200 mm |
| Temperature Range | −150 °C to +400 °C |
| Electrode Cooling/Heating | Liquid nitrogen, recirculating chiller, or resistive heating |
| RF Power Delivery | Top-mounted electrode with dual-frequency (LF/RF) capability |
| ICP Source Options | 65 mm, 180 mm, 300 mm |
| Process Pressure Range | Wide operational window enabled by high-pumping-speed vacuum system |
| Substrate Thickness Compatibility | Up to 10 mm |
| Backside He–cooling | Integrated electrostatic chuck with helium backside cooling |
| Endpoint Detection | Real-time optical emission spectroscopy (OES) monitoring |
| Chamber Architecture | Symmetric, low-inductance plasma chamber with uniform gas distribution and high-conductance pumping path |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | PlasmaPro 100 Estrelas |
| Substrate Size | 50–200 mm |
| Application Scope | Deep Silicon Etching (DSiE), MEMS, Advanced Packaging, Nanotechnology |
| Chamber Configuration | Single-chamber dual-mode (Bosch™ and cryogenic etching) |
| Process Flexibility | In-situ switchable between smooth sidewall, high-aspect-ratio, tapered via, and high-rate cavity etching |
| Key Hardware | Electrostatic/Heated chuck, optimized chamber liner, high-efficiency turbomolecular pump, fast-response mass flow controllers (MFCs), close-coupled RF delivery |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | PlasmaPro 100 Polaris |
| Wafer Size | 100 mm (4-inch) |
| Plasma Source | Inductively Coupled Plasma (ICP) with Magnetic Confinement |
| Electrode Configuration | Actively Cooled Bottom Electrode |
| Chuck Type | Electrostatic Chuck (ESC) with DC Bias Control |
| Chamber Liner | Heated, Anodized Aluminum |
| Pumping System | High-Capacity Turbomolecular Pump with Cryo-Assisted Roughing |
| Process Gas Compatibility | Cl₂, BCl₃, SF₆, CHF₃, O₂, Ar, N₂, and custom gas mixtures |
| Control Architecture | PLC-based real-time process control with Ethernet-enabled SECS/GEM interface |
| Compliance | CE-marked |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | PlasmaPro 800 RIE |
| Category | Dry Process Equipment for Semiconductor Fabrication |
| Etching Principle | Reactive Ion Etching (RIE) with optional Plasma Enhanced (PE) mode |
| Substrate Compatibility | Up to 300 mm wafers and batch processing |
| Electrode Configuration | Large-area lower electrode with liquid cooling and/or resistive heating |
| Endpoint Detection | Laser interferometry and/or optical emission spectroscopy (OES) |
| Gas Delivery | Configurable gas cabinet with 4-, 8-, or 12-channel options |
| Vacuum System | Proximal turbomolecular pumping |
| Temperature Control | Precision substrate temperature regulation (±0.5 °C typical stability) |
| Compliance | Designed for GLP/GMP-aligned process documentation |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | NGP80 |
| Configuration Options | RIE, PECVD, RIE/PECVD |
| Wafer Handling | Up to 200 mm diameter wafers |
| Footprint | Compact (Small-Footprint) Design |
| Safety Compliance | SEMI S2/S8 |
| Control Architecture | Next-Generation Bus-Based Control System |
| User Interface | Enhanced Front-End Software with Integrated Diagnostics and Auto-Cleaning Protocol |
| Process Capabilities | Thin-film deposition (e.g., SiNₓ, SiO₂, a-Si:H), reactive ion etching, in-situ chamber conditioning |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | Proteox 5 mK |
| Cooling Principle | Helium-3/Helium-4 Dilution Refrigeration |
| Base Temperature | < 5 mK |
| Magnet Compatibility | Integrated or Standalone Oxford Superconducting Magnets (up to 18 T) |
| Cryogenic Architecture | Dry, Helium-Free Operation |
| System Configuration | Turnkey Cryostat with Vibration-Isolated Mixing Chamber and Thermal Anchoring Stages |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | Proteox |
| Cooling Principle | Continuous He-3/He-4 Dilution Refrigeration |
| Base Temperature | ≤ 10 mK (typical) |
| Experimental Bore Diameter | 360 mm |
| Secondary Insert Capacity | Up to 2 × ISO100 feedthroughs |
| Additional Feedthroughs | Up to 2 × KF40 + 2 × KF25 |
| Thermal Management | Patented Gas-Gap Heat Switch System |
| Magnet Integration | Fully compatible with Oxford Instruments superconducting magnets |
| Software Platform | Web-based, cross-platform control with audit-trail logging |
| Maintenance Cycle | Extended via automated gas-handling bypass system |
| Sample Exchange | Optional bottom-loading rapid sample transfer mechanism integrated at secondary insert level |
| Compliance | Designed for GLP/GMP-aligned laboratory environments |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | NMR Pulsar |
| Instrument Type | Low-Field Benchtop NMR Analyzer |
| Sample Compatibility | Solid and Liquid Samples |
| Sensitivity | High |
| Resolution | < 0.5 Hz (1H, in D2O or CDCl3) |
| Operating Frequency | 60 MHz (¹H) |
| Magnet Type | Permanent Rare-Earth Magnet |
| Cryogen-Free Operation | Yes (No Liquid He or N2 Required) |
| Probe Configuration | Single-Tuned or Dual-Tuned (¹H/¹⁹F |
| Field Homogeneity | Automated Shimming System for High Spectral Uniformity |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | Relate Correlative Imaging Software |
| Data Format Support | Aztec H5oina, AFM native formats (e.g., Gwyddion, Nanoscope, SPIP) |
| Primary Function | Multi-modal correlative analysis of SEM/TEM, EDS, EBSD, and AFM datasets |
| Compatibility | Integrated with Oxford Instruments Aztec and Symmetry platforms |
| Licensing | Node-locked or floating license options |
| Compliance | Supports GLP/GMP-aligned documentation workflows, audit-trail-ready metadata logging |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | SpectromagPT |
| Temperature Range | 1.6 K – 300 K |
| Magnetic Field Strength | Up to 7 T |
| Optical Access | Dual-axis (parallel & perpendicular to field) |
| Sample Chamber Diameter | 30 mm |
| Temperature Stability (standard probe) | ±0.1 K |
| Cool-down Time (room temp → 4 K) | ~40 h |
| Probe Cool-down Time (to <2 K, cold insert) | <90 min |
| Field Ramp Time (to max field) | ≤60 min |
| Continuous Operation Duration | >4 weeks |
| Cryocooler Type | Closed-cycle, helium-free |
| Sample Exchange | Top-loading, no lock-in mechanism required |
| Thermal Environment | Static exchange gas cooling (no convective flow) |
| Optional Sample Stage | ±15 mm axial translation + 360° rotation about vertical axis |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | Symmetry S2 EBSD Detector |
| CCD Camera Resolution | 1244 × 1024 pixels |
| Pattern Resolution (High-Speed Mode) | 156 × 88 pixels |
| Spatial Resolution | 10 nm |
| Angular Resolution | 0.05° |
| Maximum Indexing Speed | 4500 patterns per second (pps) |
| Beam Current Requirement for 4500 pps | 12 nA |
| Integrated Forward Scatter Detectors (FSD) | 5-channel |
| Interface | Bellows-type SEM vacuum-compatible port with auto-calibrating tilt mechanism |
| Collision Avoidance | Proximity sensor–enabled retraction system |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | Symmetry S3 |
| CCD Camera Resolution | 1244 × 1024 pixels |
| Maximum Acquisition Speed | 870 Hz (≥5700 patterns per second at 156 × 128 binning) |
| Spatial Resolution | 2 nm |
| Angular Resolution | <0.1° |
| Optical System | Lensless fiber-optic coupling |
| Sensor | Custom EBSD-optimized CMOS |
| Pattern Distortion | <1 pixel (sub-pixel guaranteed) |
| Sensitivity | up to 1000 pps/nA |
| Fluorescent Screen Travel Range | ±22 mm motorized vertical adjustment |
| Collision Protection | Patented proximity sensor system |
| Optional FSD | 5-diode front-scatter detector system |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | TeslatronPT |
| Maximum Magnetic Field | 18 T |
| Temperature Range | 1.5 K to 300 K (standard VTI) |
| Sample Bore Diameter | 50 mm |
| Cooling Method | Single-pulse-tube cryocooler |
| Sample Access | Top-loading probe mechanism |
| Vibration Level | Ultra-low (suitable for SQUID, STM, and optical spectroscopy) |
| Internal Cold Trap | Yes |
| Gas Exchange Mode | Static exchange gas (no forced flow across sample) |
| Compliance | Designed for GLP/GMP-adjacent research environments |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | TKD |
| Price Range | USD 1,400 – 7,000 |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | Triton |
| Cooling Power | >12 µW @ 20 mK (Triton 500), >6 µW @ 20 mK (Triton 300) |
| Base Temperature | < 10 mK |
| Sample Space | Ø290 mm × H240 mm (extendable to 440 mm) |
| Magnetic Field Compatibility | Up to 14 T |
| Helium-3 Inventory | 18 L (Triton 500), 11 L (Triton 300) |
| Cool-down Time | < 24 h |
| Operating Temperature Range | 10 mK – 30 K (full field) |
| Cryocooler | 1–2 W Pulse Tube Refrigerator |
| Compliance | Fully compatible with ISO/IEC 17025-aligned lab infrastructure, supports GLP/GMP audit trails via optional integrated logging |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Model | TritonXL |
| Minimum Base Temperature | < 5 mK |
| Refrigeration Power | 1000 µW at 100 mK |
| Maximum Magnetic Field Compatibility | Up to 16 T |
| Integrated Cryocoolers | Dual 1.5 W Pulse Tube Refrigerators |
| Standard Warranty | 3 years (covers all system components, including third-party cryocoolers, pumps, and electronics) |
| Service Support | Factory-authorized service network across UK, Germany, USA, China, Japan, and India |
| Vibration Mitigation | Remote pump rack, rigid floor-standing cryostat support, electrical isolation between cryostat, gas lines, and pump station |
| Gas Handling System | Dry, oil-free pumping stack (roots + diaphragm + turbomolecular pumps), fully welded pneumatic circuit with high-integrity solenoid valves |
| Sample Access | Top- and bottom-loading options |
| RF Wiring Capacity | Up to 72 semi-rigid coaxial lines with optimized attenuators |
| Optical Integration | Optional fiber feedthroughs or optical windows |
| Control Interface | Advanced software suite with remote command protocol (TCP/IP), hardware interlocks, and audit-trail-capable operation logging |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | Ultim Extreme Infinity ∞ |
| Quotation | Upon Request |
| Detector Type | Sidewall-Insertion (Side-Entry) |
| Energy Resolution | C Ka ≤ 46 eV @ 50,000 cps |
| Elemental Range | Li (Z=3) to Cf (Z=98) |
| Window Type | Windowless |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | Ultim Extreme |
| Instrument Type | Multi-Detector Configuration |
| Energy Resolution | 127 eV (Mn Kα) |
| Peak-to-Background Ratio | 20,000:1 |
| Maximum Count Rate | 500,000 cps |
| Elemental Detection Range | Li to Bi |
| Detector Active Area | 100 mm² |
| Window Type | Windowless |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | Ultim Max Infinity ∞ |
| Quotation | Upon Request |
| Detector Mounting | Tilting (Side-Entry) |
| Energy Resolution | C Ka < 46 eV @ 50,000 cps |
| Elemental Detection Range | Be (Z=4) to Cf (Z=98) |
| Detector Active Area Options | 40 mm², 65 mm², 100 mm², 170 mm² |
| Window Type | SuperATW (Atmospheric Thin Window) |