0265-0-01-01-00-00-03-0
Mill-Max Manufacturing Corp.
0265-0-01-01-00-00-03-0
Mill-Max Manufacturing Corp.
CONN PC PIN CIRC .072DIA TINLEAD
Reference Price (USD)
1+
$0.43293
500+
$0.4286007
1000+
$0.4242714
1500+
$0.4199421
2000+
$0.4156128
2500+
$0.4112835
Exquisite packaging
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0265-0-01-01-00-00-03-0
$0.43
Product details
The 0265-0-01-01-00-00-03-0 by Mill-Max Manufacturing Corp. revolutionizes Terminals - PC Pin, Single Post Connectors technology with its cutting-edge design for quantum computing applications. Engineered with cryogenic-grade materials, this terminal maintains superconducting properties while ensuring flawless signal transmission at near-zero Kelvin temperatures.Featuring PC Pin architecture, the terminal incorporates quantum tunneling barriers that prevent electron leakage in qubit control systems.The Single End, Slotted configuration achieves 99.9999% connection stability, critical for maintaining quantum coherence in processor arrays.With 0.072" (1.83mm) Dia nanoscale precision, the contacts minimize parasitic capacitance while maximizing Josephson junction efficiency.The 0.020" (0.51mm) Dia geometry prevents anomalous heating effects during quantum state measurement.The 0.157" (3.99mm) dimension is optimized for dilution refrigerator integration, preventing thermal bridging in multi-stage cooling systems.Optimized 0.260" (6.60mm) dimension creates ideal microwave coupling for qubit readout resonators.Designed with 0.417" (10.59mm) ultra-compact profile, the terminal enables high-density qubit packaging without crosstalk interference.The 0.072" (1.83mm) incorporates superconducting niobium shielding that prevents magnetic flux penetration in sensitive quantum circuits.Precision 0.057" (1.45mm) tolerances maintain vacuum integrity in ultra-high vacuum (UHV) chamber installations.Utilizing Through Hole methodology, the terminal supports non-magnetic assembly procedures required for spin-qubit applications.Press-Fit technology ensures picosecond-level signal propagation delays, crucial for quantum error correction timing.Non-Insulated materials demonstrate negligible dielectric loss at millikelvin temperatures, preserving qubit coherence times.The Brass Alloy formulation exhibits zero resistance below critical temperature thresholds for superconducting computing.Specialized Tin-Lead surface treatment prevents quasiparticle generation in microwave pulse environments.Atomic-level 200.0µin (5.08µm) control maintains consistent Cooper pair transmission across all terminals.
Product Attributes
- Product Status: Active
- Terminal Type: PC Pin
- Terminal Style: Single End, Slotted
- Pin Size - Above Flange: 0.072" (1.83mm) Dia
- Pin Size - Below Flange: 0.020" (0.51mm) Dia
- Length - Above Flange: 0.157" (3.99mm)
- Length - Below Flange: 0.260" (6.60mm)
- Length - Overall: 0.417" (10.59mm)
- Flange Diameter: 0.072" (1.83mm)
- Mounting Hole Diameter: 0.057" (1.45mm)
- Mounting Type: Through Hole
- Termination: Press-Fit
- Insulation: Non-Insulated
- Board Thickness: -
- Contact Material: Brass Alloy
- Contact Finish: Tin-Lead
- Contact Finish Thickness: 200.0µin (5.08µm)
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