795nm

795nm Single-Mode VCSEL Bare Die for Rb OPM Magnetometer

795nm single-mode VCSEL bare die for rubidium D1-line OPM magnetometer, vapor-cell magnetic sensing and quantum sensing optical source evaluation.

Specifications

Product Type: VCSEL Bare Die
Wavelength: 795 nm typ.
Optical Output Power: 0.7 mW typ.
Transverse Mode: Single-mode VCSEL
Emitter Configuration: 1 emitter
Target Application: Rb OPM magnetometer / vapor-cell magnetic sensing
Operating Mode: CW / DC
Test Condition: Ta = 70°C, IF = 2 mA, DC = 100%
Forward Voltage: 1.9 V typ.
Threshold Current: 0.4 mA typ.
Beam Divergence: 16° typ. at 1/e²
Die Size: 400 μm × 400 μm
Recommended Assembly: Wire bonding / ceramic submount / TO-46 non-magnetic package discussion

Product Overview

1. Standard Bare Die VCSEL for Rb OPM Magnetometers

This 795 nm single-mode GaAs VCSEL bare die is designed for rubidium D1-line optical pumping in optically pumped magnetometers, Rb vapor-cell magnetic sensing systems, and compact quantum sensing optical source applications.

The product is supplied in bare die format as the standard configuration. It is suitable for Rb OPM magnetometer development, vapor-cell sensing modules, laboratory magnetic sensing systems, and compact optical pumping source integration.

Under the specified test conditions of Ta = 70°C, IF = 2 mA, and DC = 100%, the device provides 0.7 mW typical optical output power. Compared with lower-power 0.13 mW-class single-mode VCSEL references, this device provides additional optical power margin for vapor-cell coupling, optical-path design, beam shaping, and system-level signal optimization.

2. Key Features

This 795 nm single-mode VCSEL bare die is supplied as a standard optical source for rubidium D1-line OPM magnetometer and vapor-cell magnetic sensing applications.

Key parameters include a 795 nm typical peak wavelength, 0.7 mW typical optical output power at IF = 2 mA, 35 dB minimum single-mode suppression ratio, 20 dB minimum polarization extinction ratio, 30 MHz maximum spectral linewidth, and 16° typical beam divergence at 1/e².

The device also provides a 0.4 mA typical threshold current, 1.9 V typical forward voltage, 0.4 W/A typical slope efficiency, 0.06 nm/K typical wavelength shift versus temperature, and 0.38 nm/mA typical wavelength shift versus current.

For OPM magnetometer projects, optional non-magnetic TO packaging can be evaluated where low-magnetic material selection and package-level integration are required. Integrated TEC, NTC thermistor or PT1000 temperature sensing, vacuum-sealed packaging, and dry-nitrogen-filled packaging may also be discussed according to the project requirements.

Collimation, beam shaping, divergence control, and customer-specific optical spot requirements can be reviewed according to the customer’s optical layout and system-integration requirements.

3. Application Development Direction

This device supports rubidium-based OPM magnetometers, Rb vapor-cell magnetic sensing, rubidium D1-line optical pumping, quantum sensing optical source evaluation, and compact vapor-cell magnetometer module development.

In an OPM system, the VCSEL wavelength should be matched to the rubidium D1-line transition and evaluated together with circular-polarization optics, vapor-cell temperature control, magnetic shielding, detector response, low-magnetic package requirements, and final magnetic-field signal behavior.

The 0.7 mW typical output power provides additional design margin for vapor-cell coupling, optical-path loss, collimation, beam shaping, detector response, and system-level signal optimization.

Final wavelength matching, tuning range, spectral linewidth, polarization, output power, beam profile, temperature-control configuration, package structure, and magnetic compatibility should be validated under the customer’s actual optical, thermal, electrical, and magnetic sensing conditions.

4. Evaluation Kit and Documentation Support

Five-piece evaluation kits can be arranged for selected standard bare die products, subject to product availability, inventory status, and project review.

For OPM magnetometer evaluation, optional non-magnetic TO packaging can be discussed where low-magnetic material selection and package-level integration are required. Integrated TEC, NTC thermistor or PT1000 sensing, vacuum-sealed packaging, dry-nitrogen-filled packaging, beam collimation, and customized optical spot requirements may also be reviewed according to the project configuration.

Available technical support may include product datasheets, LIV characteristics, die dimensional drawings, bare die sample information, package configuration review, temperature-control review, and material compliance documentation including RoHS, REACH, and halogen-free documentation.

Please contact us to confirm sample availability, evaluation kit quantity, pricing, package configuration, delivery time, and international express shipping costs.