# A new compact, portable 2-LTD-brick x-pinch driver at the Idaho   Accelerator Center: design, fabrication, testing and x-ray performance

**Authors:** Roman V. Shapovalov

arXiv: 1907.05352 · 2019-07-12

## TL;DR

This paper presents the design, fabrication, and testing of a compact, portable x-pinch driver capable of producing high-current x-ray radiation, suitable for diverse scientific and industrial applications.

## Contribution

A novel, compact x-pinch driver based on two LTD bricks was developed, demonstrating comparable x-ray performance to standard drivers with improved portability and ease of relocation.

## Key findings

- Achieved 185-kA peak current at 80 kV with a 220-ns rise time
- Designed a driver capable of 180-kA peak current at 100 kV with 150-ns rise time
- Demonstrated the driver’s effectiveness in imaging exploding wires for plasma diagnostics

## Abstract

We propose to construct a compact and portable x-pinch driver with x-ray radiation performance, comparable to standard x-pinch drivers. Such a new x-pinch driver was recently designed, fabricated and tested at the Idaho Accelerator Center. The generator is based on two slow LTD bricks combined into one solid unit, and can be described by a simple RLC circuit with four fast 140-nF, 100-kV capacitors that store up to 2.8 kJ. The test data reveals that when charged to 80 kV, the driver supplies 185-kA peak-current into a short Ni-wire load with 220-ns, 10-90%, rise time. The total internal inductance of our driver was measured to be about 60 nH. The revised driver model shows that when fully charged to 100 kV, the driver will supply 180-kA peak-current with 150-ns rise-time into the x-pinch load. The corresponding current rise rate is about 1.2 kA/ns. To prove the driver x-pinch efficiency and to estimate the x-ray radiation performance, we could, for example, image an exploding wires, placed in a separate HV pulser, with our x-pinch x-ray radiation source. The study of exploding wires helps to understand the behavior of a warm dense matter, and our x-pinch driver can be part of the diagnostics needed for this study which is currently under progress at the IAC. Our driver contains no oil inside, is very compact and portable, and can be easily relocated to practically anywhere, which makes it an ideal backlighting diagnostic tool in many areas of plasma physics, biology, and industry where a bright, fast, and small x-pinch radiation source is required.

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Source: https://tomesphere.com/paper/1907.05352